Welcome to hkl's 5.0.0.2449 documentation!

1.3.1 the crystal

1.3.2 Diffraction

1.3.3 Quaternions

1. Properties
   

   The quaternions will be used to describe the diffractometers geometries. Theses quaternions can represent 3D rotations. There is different way to describe then like complex numbers.

   \[ q=a+bi+cj+dk \]

   or

   \[ q=[a,\vec{v}] \]

   To compute the quaternion's norm, we can proceed like for complex numbers

   \[ \|q\|=\sqrt{a²+b²+c²+d²} \]

   Its conjugate is :

   \[ q^{*}=[a,-\vec{u}]=a-bi-cj-dk \]

2. Operations
   

   The difference with the complex number algebra is about non-commutativity.

   \[ qp \neq pq \]

   \[

   \begin{bmatrix} ~ & 1 & i & j & k \cr 1 & 1 & i & j & k \cr i & i & -1 & k & -j \cr j & j & -k & -1 & i \cr k & k & j & -i & -1 \end{bmatrix}

   \]

   The product of two quaternions can be express by the Grassman product Grassman product. So for two quaternions \(p\) and \(q\):

   \begin{align*} q &= a+\vec{u} = a+bi+cj+dk\\ p &= t+\vec{v} = t+xi+yj+zk \end{align*}

   we got

   \[ pq = at - \vec{u} \cdot \vec{v} + a \vec{v} + t \vec{u} + \vec{v} \times \vec{u} \]

   or equivalent

   \[ pq = (at - bx - cy - dz) + (bt + ax + cz - dy) i + (ct + ay + dx - bz) j + (dt + az + by - cx) k \]

3. 3D rotations
   

   L'ensemble des quaternions unitaires (leur norme est égale à 1) est le groupe qui représente les rotations dans l'espace 3D. Si on a un vecteur unitaire \(\vec{u}\) et un angle de rotation \(\theta\) alors le quaternion \([\cos\frac{\theta}{2},\sin\frac{\theta}{2}\vec{u]}\) représente la rotation de \(\theta\) autour de l'axe \(\vec{u}\) dans le sens trigonométrique. Nous allons donc utiliser ces quaternions unitaires pour représenter les mouvements du diffractomètre.

   Alors que dans le plan 2D une simple multiplication entre un nombre complex et le nombre \(e^{i\theta}\) permet de calculer simplement la rotation d'angle \(\theta\) autour de l'origine, dans l'espace 3D l'expression équivalente est:

   \[ z'=qzq^{-1} \]

   où \(q\) est le quaternion de norme 1 représentant la rotation dans l'espace et \(z\) le quaternion représentant le vecteur qui subit la rotation (sa partie réelle est nulle).

   Dans le cas des quaternions de norme 1, il est très facile de calculer \(q^{-1}\). En effet l'inverse d'une rotation d'angle \(\theta\) est la rotation d'angle \(-\theta\). On a donc directement:

   \[ q^{-1}=[\cos\frac{-\theta}{2},\sin\frac{-\theta}{2}\vec{u}]=[\cos\frac{\theta}{2},-\sin\frac{\theta}{2}\vec{u}]=q^{*} \]

   Le passage aux matrices de rotation se fait par la formule suivante \(q\rightarrow M\).

   \[

   \begin{bmatrix} a{{}^2}+b{{}^2}-c{{}^2}-d{{}^2} & 2bc-2ad & 2ac+2bd\\ 2ad+2bc & a{{}^2}-b{{}^2}+c{{}^2}-d{{}^2} & 2cd-2ab\\ 2bd-2ac & 2ab+2cd & a{{}^2}-b{{}^2}-c{{}^2}+d{{}^2} \end{bmatrix}

   \]

   La composition de rotation se fait simplement en multipliant les quaternions entre eux. Si l'on à \(q\)

1.5.1 Calcule de B

1.5.2 Calcule de U

1.5.3 Algorithme de Busing Levy

1.5.4 Affinement par la méthode du simplex

2.1.1 First Solution

2.1.2 Multiplication of the solutions.

1. Geometry Multiplication
   

   For kappa diffractometers, once you have one solution it is possible to générate another one using a property of this geometry. (Left arm and right arm).

2.1.3 Restrains of the Solutions

3.1.1 Axes:

3.1.2 Engines:

1. "hkl":
   
   • pseudo axes:
     • "h" : h coordinate of the diffracting plan
     • "k" : k coordinate of the diffracting plan
     • "l" : l coordinate of the diffracting plan

   • mode: "bissector"
     • axes (read) : "omega", "chi", "phi", "tth"
     • axes (write): "omega", "chi", "phi", "tth"
     • parameters: No parameter
   • mode: "constant_omega"
     • axes (read) : "omega", "chi", "phi", "tth"
     • axes (write): "chi", "phi", "tth"
     • parameters: No parameter
   • mode: "constant_chi"
     • axes (read) : "omega", "chi", "phi", "tth"
     • axes (write): "omega", "phi", "tth"
     • parameters: No parameter
   • mode: "constant_phi"
     • axes (read) : "omega", "chi", "phi", "tth"
     • axes (write): "omega", "chi", "tth"
     • parameters: No parameter
   • mode: "double_diffraction"
     • axes (read) : "omega", "chi", "phi", "tth"
     • axes (write): "omega", "chi", "phi", "tth"
     • parameters:
       • h2 [1.0]: h coordinate of the second diffracting plan
       • k2 [1.0]: k coordinate of the second diffracting plan
       • l2 [1.0]: l coordinate of the second diffracting plan
   • mode: "psi_constant"
     • axes (read) : "omega", "chi", "phi", "tth"
     • axes (write): "omega", "chi", "phi", "tth"
     • parameters:
       • h2 [1.0]: h coordinate of the reference plan
       • k2 [1.0]: k coordinate of the reference plan
       • l2 [1.0]: l coordinate of the reference plan
       • psi [0.0]: expected angle between the reference and the diffraction plans
2. "psi":
   
   • pseudo axes:
     • "psi" : angle between the reference vector and the diffraction plan

   • mode: "psi"
     • axes (read) : "omega", "chi", "phi", "tth"
     • axes (write): "omega", "chi", "phi", "tth"
     • parameters:
       • h2 [1.0]: h coordinate of the reference plan
       • k2 [1.0]: k coordinate of the reference plan
       • l2 [1.0]: l coordinate of the reference plan
3. "q":
   
   • pseudo axes:
     • "q" : the norm of \(\vec{q}\)

   • mode: "q"
     • axes (read) : "tth"
     • axes (write): "tth"
     • parameters: No parameter
4. "incidence":
   
   • pseudo axes:
     • "incidence" : incidence of the incomming beam.
     • "azimuth" : azimuth of the sample surface (projection of \(\vec{n}\) on the \(yOz\) plan

   • mode: "incidence"
     • axes (read) : "omega", "chi", "phi"
     • axes (write):
     • parameters:
       • x [0.0]: the x coordinate of the surface \(\vec{n}\)
       • y [1.0]: the y coordinate of the surface \(\vec{n}\)
       • z [0.0]: the z coordinate of the surface \(\vec{n}\)
5. "emergence":
   
   • pseudo axes:
     • "emergence" : incidence of the outgoing beam.
     • "azimuth" : azimuth of the sample surface (projection of \(\vec{n}\) on the \(yOz\) plan

   • mode: "emergence"
     • axes (read) : "omega", "chi", "phi", "tth"
     • axes (write):
     • parameters:
       • x [0.0]: the x coordinate of the surface \(\vec{n}\)
       • y [1.0]: the y coordinate of the surface \(\vec{n}\)
       • z [0.0]: the z coordinate of the surface \(\vec{n}\)

3.2.1 Axes:

3.2.2 Engines:

1. "hkl":
   
   • pseudo axes:
     • "h" : h coordinate of the diffracting plan
     • "k" : k coordinate of the diffracting plan
     • "l" : l coordinate of the diffracting plan

   • mode: "bissector"
     • axes (read) : "omega", "chi", "phi", "tth"
     • axes (write): "omega", "chi", "phi", "tth"
     • parameters: No parameter
   • mode: "constant_omega"
     • axes (read) : "omega", "chi", "phi", "tth"
     • axes (write): "chi", "phi", "tth"
     • parameters: No parameter
   • mode: "constant_chi"
     • axes (read) : "omega", "chi", "phi", "tth"
     • axes (write): "omega", "phi", "tth"
     • parameters: No parameter
   • mode: "constant_phi"
     • axes (read) : "omega", "chi", "phi", "tth"
     • axes (write): "omega", "chi", "tth"
     • parameters: No parameter
   • mode: "double_diffraction"
     • axes (read) : "omega", "chi", "phi", "tth"
     • axes (write): "omega", "chi", "phi", "tth"
     • parameters:
       • h2 [1.0]: h coordinate of the second diffracting plan
       • k2 [1.0]: k coordinate of the second diffracting plan
       • l2 [1.0]: l coordinate of the second diffracting plan
   • mode: "psi_constant"
     • axes (read) : "omega", "chi", "phi", "tth"
     • axes (write): "omega", "chi", "phi", "tth"
     • parameters:
       • h2 [1.0]: h coordinate of the reference plan
       • k2 [1.0]: k coordinate of the reference plan
       • l2 [1.0]: l coordinate of the reference plan
       • psi [0.0]: expected angle between the reference and the diffraction plans
2. "psi":
   
   • pseudo axes:
     • "psi" : angle between the reference vector and the diffraction plan

   • mode: "psi"
     • axes (read) : "omega", "chi", "phi", "tth"
     • axes (write): "omega", "chi", "phi", "tth"
     • parameters:
       • h2 [1.0]: h coordinate of the reference plan
       • k2 [1.0]: k coordinate of the reference plan
       • l2 [1.0]: l coordinate of the reference plan
3. "q":
   
   • pseudo axes:
     • "q" : the norm of \(\vec{q}\)

   • mode: "q"
     • axes (read) : "tth"
     • axes (write): "tth"
     • parameters: No parameter
4. "incidence":
   
   • pseudo axes:
     • "incidence" : incidence of the incomming beam.
     • "azimuth" : azimuth of the sample surface (projection of \(\vec{n}\) on the \(yOz\) plan

   • mode: "incidence"
     • axes (read) : "omega", "chi", "phi"
     • axes (write):
     • parameters:
       • x [0.0]: the x coordinate of the surface \(\vec{n}\)
       • y [1.0]: the y coordinate of the surface \(\vec{n}\)
       • z [0.0]: the z coordinate of the surface \(\vec{n}\)
5. "emergence":
   
   • pseudo axes:
     • "emergence" : incidence of the outgoing beam.
     • "azimuth" : azimuth of the sample surface (projection of \(\vec{n}\) on the \(yOz\) plan

   • mode: "emergence"
     • axes (read) : "omega", "chi", "phi", "tth"
     • axes (write):
     • parameters:
       • x [0.0]: the x coordinate of the surface \(\vec{n}\)
       • y [1.0]: the y coordinate of the surface \(\vec{n}\)
       • z [0.0]: the z coordinate of the surface \(\vec{n}\)

3.3.1 Axes:

3.3.2 Engines:

1. "hkl":
   
   • pseudo axes:
     • "h" : h coordinate of the diffracting plan
     • "k" : k coordinate of the diffracting plan
     • "l" : l coordinate of the diffracting plan

   • mode: "bissector_vertical"
     • axes (read) : "mu", "omega", "chi", "phi", "gamma", "delta"
     • axes (write): "omega", "chi", "phi", "delta"
     • parameters: No parameter
   • mode: "constant_omega_vertical"
     • axes (read) : "mu", "omega", "chi", "phi", "gamma", "delta"
     • axes (write): "chi", "phi", "delta"
     • parameters: No parameter
   • mode: "constant_chi_vertical"
     • axes (read) : "mu", "omega", "chi", "phi", "gamma", "delta"
     • axes (write): "omega", "phi", "delta"
     • parameters: No parameter
   • mode: "constant_phi_vertical"
     • axes (read) : "mu", "omega", "chi", "phi", "gamma", "delta"
     • axes (write): "omega", "chi", "delta"
     • parameters: No parameter
   • mode: "lifting_detector_phi"
     • axes (read) : "mu", "omega", "chi", "phi", "gamma", "delta"
     • axes (write): "phi", "gamma", "delta"
     • parameters: No parameter
   • mode: "lifting_detector_omega"
     • axes (read) : "mu", "omega", "chi", "phi", "gamma", "delta"
     • axes (write): "omega", "gamma", "delta"
     • parameters: No parameter
   • mode: "lifting_detector_mu"
     • axes (read) : "mu", "omega", "chi", "phi", "gamma", "delta"
     • axes (write): "mu", "gamma", "delta"
     • parameters: No parameter
   • mode: "double_diffraction_vertical"
     • axes (read) : "mu", "omega", "chi", "phi", "gamma", "delta"
     • axes (write): "omega", "chi", "phi", "delta"
     • parameters:
       • h2 [1.0]: h coordinate of the second diffracting plan
       • k2 [1.0]: k coordinate of the second diffracting plan
       • l2 [1.0]: l coordinate of the second diffracting plan
   • mode: "bissector_horizontal"
     • axes (read) : "mu", "omega", "chi", "phi", "gamma", "delta"
     • axes (write): "mu", "omega", "chi", "phi", "gamma"
     • parameters: No parameter
   • mode: "double_diffraction_horizontal"
     • axes (read) : "mu", "omega", "chi", "phi", "gamma", "delta"
     • axes (write): "mu", "chi", "phi", "gamma"
     • parameters:
       • h2 [1.0]: h coordinate of the second diffracting plan
       • k2 [1.0]: k coordinate of the second diffracting plan
       • l2 [1.0]: l coordinate of the second diffracting plan
   • mode: "psi_constant_vertical"
     • axes (read) : "mu", "omega", "chi", "phi", "gamma", "delta"
     • axes (write): "omega", "chi", "phi", "delta"
     • parameters:
       • h2 [1.0]: h coordinate of the reference plan
       • k2 [0.0]: k coordinate of the reference plan
       • l2 [0.0]: l coordinate of the reference plan
       • psi [0.0]: expected angle between the reference and the diffraction plans
   • mode: "psi_constant_horizontal"
     • axes (read) : "mu", "omega", "chi", "phi", "gamma", "delta"
     • axes (write): "omega", "chi", "phi", "gamma"
     • parameters:
       • h2 [1.0]: h coordinate of the reference plan
       • k2 [1.0]: k coordinate of the reference plan
       • l2 [1.0]: l coordinate of the reference plan
       • psi [0.0]: expected angle between the reference and the diffraction plans
   • mode: "constant_mu_horizontal"
     • axes (read) : "mu", "omega", "chi", "phi", "gamma", "delta"
     • axes (write): "chi", "phi", "gamma"
     • parameters: No parameter
2. "psi":
   
   • pseudo axes:
     • "psi" : angle between the reference vector and the diffraction plan

   • mode: "psi_vertical"
     • axes (read) : "mu", "omega", "chi", "phi", "gamma", "delta"
     • axes (write): "omega", "chi", "phi", "delta"
     • parameters:
       • h2 [1.0]: h coordinate of the reference plan
       • k2 [1.0]: k coordinate of the reference plan
       • l2 [1.0]: l coordinate of the reference plan
3. "q2":
   
   • pseudo axes:
     • "q" : the norm of \(\vec{q}\)
     • "alpha" : angle of the projection of \(\vec{q}\) on the \(yOz\) plan and \(\vec{y}\)

   • mode: "q2"
     • axes (read) : "gamma", "delta"
     • axes (write): "gamma", "delta"
     • parameters: No parameter
4. "qper_qpar":
   
   • pseudo axes:
     • "qper" : perpendicular component of \(\vec{q}\) along the normal of the sample surface
     • "qpar" : parallel component of \(\vec{q}\)

   • mode: "qper_qpar"
     • axes (read) : "gamma", "delta"
     • axes (write): "gamma", "delta"
     • parameters:
       • x [0.0]: the x coordinate of the surface \(\vec{n}\)
       • y [1.0]: the y coordinate of the surface \(\vec{n}\)
       • z [0.0]: the z coordinate of the surface \(\vec{n}\)
5. "tth2":
   
   • pseudo axes:
     • "tth" : the \(2 \theta\) angle
     • "alpha" : angle of the projection of \(\vec{q}\) on the \(yOz\) plan and \(\vec{y}\)

   • mode: "tth2"
     • axes (read) : "gamma", "delta"
     • axes (write): "gamma", "delta"
     • parameters: No parameter
6. "incidence":
   
   • pseudo axes:
     • "incidence" : incidence of the incomming beam.
     • "azimuth" : azimuth of the sample surface (projection of \(\vec{n}\) on the \(yOz\) plan

   • mode: "incidence"
     • axes (read) : "mu", "omega", "chi", "phi"
     • axes (write):
     • parameters:
       • x [0.0]: the x coordinate of the surface \(\vec{n}\)
       • y [1.0]: the y coordinate of the surface \(\vec{n}\)
       • z [0.0]: the z coordinate of the surface \(\vec{n}\)
7. "emergence":
   
   • pseudo axes:
     • "emergence" : incidence of the outgoing beam.
     • "azimuth" : azimuth of the sample surface (projection of \(\vec{n}\) on the \(yOz\) plan

   • mode: "emergence"
     • axes (read) : "mu", "omega", "chi", "phi", "gamma", "delta"
     • axes (write):
     • parameters:
       • x [0.0]: the x coordinate of the surface \(\vec{n}\)
       • y [1.0]: the y coordinate of the surface \(\vec{n}\)
       • z [0.0]: the z coordinate of the surface \(\vec{n}\)

3.4.1 Axes:

3.4.2 Engines:

1. "hkl":
   
   • pseudo axes:
     • "h" : h coordinate of the diffracting plan
     • "k" : k coordinate of the diffracting plan
     • "l" : l coordinate of the diffracting plan

   • mode: "bissector"
     • axes (read) : "komega", "kappa", "kphi", "tth"
     • axes (write): "komega", "kappa", "kphi", "tth"
     • parameters: No parameter
   • mode: "constant_omega"
     • axes (read) : "komega", "kappa", "kphi", "tth"
     • axes (write): "komega", "kappa", "kphi", "tth"
     • parameters:
       • omega [0.0]: the freezed value
   • mode: "constant_chi"
     • axes (read) : "komega", "kappa", "kphi", "tth"
     • axes (write): "komega", "kappa", "kphi", "tth"
     • parameters:
       • chi [0.0]: the freezed value
   • mode: "constant_phi"
     • axes (read) : "komega", "kappa", "kphi", "tth"
     • axes (write): "komega", "kappa", "kphi", "tth"
     • parameters:
       • phi [0.0]: the freezed value
   • mode: "double_diffraction"
     • axes (read) : "komega", "kappa", "kphi", "tth"
     • axes (write): "komega", "kappa", "kphi", "tth"
     • parameters:
       • h2 [1.0]: h coordinate of the second diffracting plan
       • k2 [1.0]: k coordinate of the second diffracting plan
       • l2 [1.0]: l coordinate of the second diffracting plan
   • mode: "psi_constant"
     • axes (read) : "komega", "kappa", "kphi", "tth"
     • axes (write): "komega", "kappa", "kphi", "tth"
     • parameters:
       • h2 [1.0]: h coordinate of the reference plan
       • k2 [1.0]: k coordinate of the reference plan
       • l2 [1.0]: l coordinate of the reference plan
       • psi [0.0]: expected angle between the reference and the diffraction plans
2. "eulerians":
   
   • pseudo axes:
     • "omega" : omega equivalent for a four circle eulerian geometry
     • "chi" : chi equivalent for a four circle eulerian geometry
     • "phi" : phi equivalent for a four circle eulerian geometry

   • mode: "eulerians"
     • axes (read) : "komega", "kappa", "kphi"
     • axes (write): "komega", "kappa", "kphi"
     • parameters:
       • solutions [1.0]: (0/1) to select the first or second solution
3. "psi":
   
   • pseudo axes:
     • "psi" : angle between the reference vector and the diffraction plan

   • mode: "psi"
     • axes (read) : "komega", "kappa", "kphi", "tth"
     • axes (write): "komega", "kappa", "kphi", "tth"
     • parameters:
       • h2 [1.0]: h coordinate of the reference plan
       • k2 [1.0]: k coordinate of the reference plan
       • l2 [1.0]: l coordinate of the reference plan
4. "q":
   
   • pseudo axes:
     • "q" : the norm of \(\vec{q}\)

   • mode: "q"
     • axes (read) : "tth"
     • axes (write): "tth"
     • parameters: No parameter
5. "incidence":
   
   • pseudo axes:
     • "incidence" : incidence of the incomming beam.
     • "azimuth" : azimuth of the sample surface (projection of \(\vec{n}\) on the \(yOz\) plan

   • mode: "incidence"
     • axes (read) : "komega", "kappa", "kphi"
     • axes (write):
     • parameters:
       • x [0.0]: the x coordinate of the surface \(\vec{n}\)
       • y [1.0]: the y coordinate of the surface \(\vec{n}\)
       • z [0.0]: the z coordinate of the surface \(\vec{n}\)
6. "emergence":
   
   • pseudo axes:
     • "emergence" : incidence of the outgoing beam.
     • "azimuth" : azimuth of the sample surface (projection of \(\vec{n}\) on the \(yOz\) plan

   • mode: "emergence"
     • axes (read) : "komega", "kappa", "kphi", "tth"
     • axes (write):
     • parameters:
       • x [0.0]: the x coordinate of the surface \(\vec{n}\)
       • y [1.0]: the y coordinate of the surface \(\vec{n}\)
       • z [0.0]: the z coordinate of the surface \(\vec{n}\)

3.5.1 Axes:

3.5.2 Engines:

1. "hkl":
   
   • pseudo axes:
     • "h" : h coordinate of the diffracting plan
     • "k" : k coordinate of the diffracting plan
     • "l" : l coordinate of the diffracting plan

   • mode: "bissector_vertical"
     • axes (read) : "mu", "komega", "kappa", "kphi", "gamma", "delta"
     • axes (write): "komega", "kappa", "kphi", "delta"
     • parameters: No parameter
   • mode: "constant_omega_vertical"
     • axes (read) : "mu", "komega", "kappa", "kphi", "gamma", "delta"
     • axes (write): "komega", "kappa", "kphi", "delta"
     • parameters:
       • omega [0.0]: the freezed value
   • mode: "constant_chi_vertical"
     • axes (read) : "mu", "komega", "kappa", "kphi", "gamma", "delta"
     • axes (write): "komega", "kappa", "kphi", "delta"
     • parameters:
       • chi [0.0]: the freezed value
   • mode: "constant_phi_vertical"
     • axes (read) : "mu", "komega", "kappa", "kphi", "gamma", "delta"
     • axes (write): "komega", "kappa", "kphi", "delta"
     • parameters:
       • phi [0.0]: the freezed value
   • mode: "lifting_detector_kphi"
     • axes (read) : "mu", "komega", "kappa", "kphi", "gamma", "delta"
     • axes (write): "kphi", "gamma", "delta"
     • parameters: No parameter
   • mode: "lifting_detector_komega"
     • axes (read) : "mu", "komega", "kappa", "kphi", "gamma", "delta"
     • axes (write): "komega", "gamma", "delta"
     • parameters: No parameter
   • mode: "lifting_detector_mu"
     • axes (read) : "mu", "komega", "kappa", "kphi", "gamma", "delta"
     • axes (write): "mu", "gamma", "delta"
     • parameters: No parameter
   • mode: "double_diffraction_vertical"
     • axes (read) : "mu", "komega", "kappa", "kphi", "gamma", "delta"
     • axes (write): "komega", "kappa", "kphi", "delta"
     • parameters:
       • h2 [1.0]: h coordinate of the second diffracting plan
       • k2 [1.0]: k coordinate of the second diffracting plan
       • l2 [1.0]: l coordinate of the second diffracting plan
   • mode: "bissector_horizontal"
     • axes (read) : "mu", "komega", "kappa", "kphi", "gamma", "delta"
     • axes (write): "mu", "komega", "kappa", "kphi", "gamma"
     • parameters: No parameter
   • mode: "constant_phi_horizontal"
     • axes (read) : "mu", "komega", "kappa", "kphi", "gamma", "delta"
     • axes (write): "mu", "komega", "kappa", "kphi", "gamma"
     • parameters:
       • phi [0.0]: the freezed value
   • mode: "constant_kphi_horizontal"
     • axes (read) : "mu", "komega", "kappa", "kphi", "gamma", "delta"
     • axes (write): "mu", "komega", "kappa", "gamma"
     • parameters: No parameter
   • mode: "double_diffraction_horizontal"
     • axes (read) : "mu", "komega", "kappa", "kphi", "gamma", "delta"
     • axes (write): "mu", "komega", "kappa", "kphi", "gamma"
     • parameters:
       • h2 [1.0]: h coordinate of the second diffracting plan
       • k2 [1.0]: k coordinate of the second diffracting plan
       • l2 [1.0]: l coordinate of the second diffracting plan
   • mode: "psi_constant_vertical"
     • axes (read) : "mu", "komega", "kappa", "kphi", "gamma", "delta"
     • axes (write): "komega", "kappa", "kphi", "delta"
     • parameters:
       • h2 [1.0]: h coordinate of the reference plan
       • k2 [1.0]: k coordinate of the reference plan
       • l2 [1.0]: l coordinate of the reference plan
       • psi [0.0]: expected angle between the reference and the diffraction plans
   • mode: "constant_incidence"
     • axes (read) : "mu", "komega", "kappa", "kphi", "gamma", "delta"
     • axes (write): "komega", "kappa", "kphi", "gamma", "delta"
     • parameters:
       • x [1.0]: the x coordinate of the surface \(\vec{n}\)
       • y [1.0]: the y coordinate of the surface \(\vec{n}\)
       • z [1.0]: the z coordinate of the surface \(\vec{n}\)
       • incidence [0.0]: expected incidence of the incoming beam \(\vec{k_i}\) on the surface.
       • azimuth [90.0]: expected azimuth
2. "eulerians":
   
   • pseudo axes:
     • "omega" : omega equivalent for a four circle eulerian geometry
     • "chi" : chi equivalent for a four circle eulerian geometry
     • "phi" : phi equivalent for a four circle eulerian geometry

   • mode: "eulerians"
     • axes (read) : "komega", "kappa", "kphi"
     • axes (write): "komega", "kappa", "kphi"
     • parameters:
       • solutions [1.0]: (0/1) to select the first or second solution
3. "psi":
   
   • pseudo axes:
     • "psi" : angle between the reference vector and the diffraction plan

   • mode: "psi_vertical"
     • axes (read) : "mu", "komega", "kappa", "kphi", "gamma", "delta"
     • axes (write): "komega", "kappa", "kphi", "delta"
     • parameters:
       • h2 [1.0]: h coordinate of the reference plan
       • k2 [1.0]: k coordinate of the reference plan
       • l2 [1.0]: l coordinate of the reference plan
4. "q2":
   
   • pseudo axes:
     • "q" : the norm of \(\vec{q}\)
     • "alpha" : angle of the projection of \(\vec{q}\) on the \(yOz\) plan and \(\vec{y}\)

   • mode: "q2"
     • axes (read) : "gamma", "delta"
     • axes (write): "gamma", "delta"
     • parameters: No parameter
5. "qper_qpar":
   
   • pseudo axes:
     • "qper" : perpendicular component of \(\vec{q}\) along the normal of the sample surface
     • "qpar" : parallel component of \(\vec{q}\)

   • mode: "qper_qpar"
     • axes (read) : "gamma", "delta"
     • axes (write): "gamma", "delta"
     • parameters:
       • x [0.0]: the x coordinate of the surface \(\vec{n}\)
       • y [1.0]: the y coordinate of the surface \(\vec{n}\)
       • z [0.0]: the z coordinate of the surface \(\vec{n}\)
6. "incidence":
   
   • pseudo axes:
     • "incidence" : incidence of the incomming beam.
     • "azimuth" : azimuth of the sample surface (projection of \(\vec{n}\) on the \(yOz\) plan

   • mode: "incidence"
     • axes (read) : "mu", "komega", "kappa", "kphi"
     • axes (write):
     • parameters:
       • x [0.0]: the x coordinate of the surface \(\vec{n}\)
       • y [1.0]: the y coordinate of the surface \(\vec{n}\)
       • z [0.0]: the z coordinate of the surface \(\vec{n}\)
7. "tth2":
   
   • pseudo axes:
     • "tth" : the \(2 \theta\) angle
     • "alpha" : angle of the projection of \(\vec{q}\) on the \(yOz\) plan and \(\vec{y}\)

   • mode: "tth2"
     • axes (read) : "gamma", "delta"
     • axes (write): "gamma", "delta"
     • parameters: No parameter
8. "emergence":
   
   • pseudo axes:
     • "emergence" : incidence of the outgoing beam.
     • "azimuth" : azimuth of the sample surface (projection of \(\vec{n}\) on the \(yOz\) plan

   • mode: "emergence"
     • axes (read) : "mu", "komega", "kappa", "kphi", "gamma", "delta"
     • axes (write):
     • parameters:
       • x [0.0]: the x coordinate of the surface \(\vec{n}\)
       • y [1.0]: the y coordinate of the surface \(\vec{n}\)
       • z [0.0]: the z coordinate of the surface \(\vec{n}\)

3.6.1 Axes:

3.6.2 Engines:

1. "hkl":
   
   • pseudo axes:
     • "h" : h coordinate of the diffracting plan
     • "k" : k coordinate of the diffracting plan
     • "l" : l coordinate of the diffracting plan

   • mode: "zaxis + alpha-fixed"
     • axes (read) : "mu", "omega", "chi", "phi", "delta", "gamma"
     • axes (write): "omega", "delta", "gamma"
     • parameters: No parameter
   • mode: "zaxis + beta-fixed"
     • axes (read) : "mu", "omega", "chi", "phi", "delta", "gamma"
     • axes (write): "mu", "delta", "gamma"
     • parameters: No parameter
   • mode: "zaxis + alpha=beta"
     • axes (read) : "mu", "omega", "chi", "phi", "delta", "gamma"
     • axes (write): "mu", "omega", "delta", "gamma"
     • parameters: No parameter
   • mode: "4-circles bissecting horizontal"
     • axes (read) : "mu", "omega", "chi", "phi", "delta", "gamma"
     • axes (write): "omega", "chi", "phi", "delta"
     • parameters: No parameter
   • mode: "4-circles constant omega horizontal"
     • axes (read) : "mu", "omega", "chi", "phi", "delta", "gamma"
     • axes (write): "chi", "phi", "delta"
     • parameters: No parameter
   • mode: "4-circles constant chi horizontal"
     • axes (read) : "mu", "omega", "chi", "phi", "delta", "gamma"
     • axes (write): "omega", "phi", "delta"
     • parameters: No parameter
   • mode: "4-circles constant phi horizontal"
     • axes (read) : "mu", "omega", "chi", "phi", "delta", "gamma"
     • axes (write): "omega", "chi", "delta"
     • parameters: No parameter
   • mode: "lifting detector mu"
     • axes (read) : "mu", "omega", "chi", "phi", "delta", "gamma"
     • axes (write): "mu", "delta", "gamma"
     • parameters: No parameter
   • mode: "lifting detector omega"
     • axes (read) : "mu", "omega", "chi", "phi", "delta", "gamma"
     • axes (write): "omega", "delta", "gamma"
     • parameters: No parameter
   • mode: "lifting detector chi"
     • axes (read) : "mu", "omega", "chi", "phi", "delta", "gamma"
     • axes (write): "chi", "delta", "gamma"
     • parameters: No parameter
   • mode: "lifting detector phi"
     • axes (read) : "mu", "omega", "chi", "phi", "delta", "gamma"
     • axes (write): "phi", "delta", "gamma"
     • parameters: No parameter

3.7.1 Axes:

3.7.2 Engines:

1. "hkl":
   
   • pseudo axes:
     • "h" : h coordinate of the diffracting plan
     • "k" : k coordinate of the diffracting plan
     • "l" : l coordinate of the diffracting plan

   • mode: "bissector"
     • axes (read) : "omega", "chi", "phi", "tth"
     • axes (write): "omega", "chi", "phi", "tth"
     • parameters: No parameter
   • mode: "constant_omega"
     • axes (read) : "omega", "chi", "phi", "tth"
     • axes (write): "chi", "phi", "tth"
     • parameters: No parameter
   • mode: "constant_chi"
     • axes (read) : "omega", "chi", "phi", "tth"
     • axes (write): "omega", "phi", "tth"
     • parameters: No parameter
   • mode: "constant_phi"
     • axes (read) : "omega", "chi", "phi", "tth"
     • axes (write): "omega", "chi", "tth"
     • parameters: No parameter
   • mode: "double_diffraction"
     • axes (read) : "omega", "chi", "phi", "tth"
     • axes (write): "omega", "chi", "phi", "tth"
     • parameters:
       • h2 [1.0]: h coordinate of the second diffracting plan
       • k2 [1.0]: k coordinate of the second diffracting plan
       • l2 [1.0]: l coordinate of the second diffracting plan
   • mode: "psi_constant"
     • axes (read) : "omega", "chi", "phi", "tth"
     • axes (write): "omega", "chi", "phi", "tth"
     • parameters:
       • h2 [1.0]: h coordinate of the reference plan
       • k2 [1.0]: k coordinate of the reference plan
       • l2 [1.0]: l coordinate of the reference plan
       • psi [0.0]: expected angle between the reference and the diffraction plans
2. "psi":
   
   • pseudo axes:
     • "psi" : angle between the reference vector and the diffraction plan

   • mode: "psi"
     • axes (read) : "omega", "chi", "phi", "tth"
     • axes (write): "omega", "chi", "phi", "tth"
     • parameters:
       • h2 [1.0]: h coordinate of the reference plan
       • k2 [1.0]: k coordinate of the reference plan
       • l2 [1.0]: l coordinate of the reference plan
3. "q":
   
   • pseudo axes:
     • "q" : the norm of \(\vec{q}\)

   • mode: "q"
     • axes (read) : "tth"
     • axes (write): "tth"
     • parameters: No parameter
4. "incidence":
   
   • pseudo axes:
     • "incidence" : incidence of the incomming beam.
     • "azimuth" : azimuth of the sample surface (projection of \(\vec{n}\) on the \(yOz\) plan

   • mode: "incidence"
     • axes (read) : "omega", "chi", "phi"
     • axes (write):
     • parameters:
       • x [0.0]: the x coordinate of the surface \(\vec{n}\)
       • y [1.0]: the y coordinate of the surface \(\vec{n}\)
       • z [0.0]: the z coordinate of the surface \(\vec{n}\)
5. "emergence":
   
   • pseudo axes:
     • "emergence" : incidence of the outgoing beam.
     • "azimuth" : azimuth of the sample surface (projection of \(\vec{n}\) on the \(yOz\) plan

   • mode: "emergence"
     • axes (read) : "omega", "chi", "phi", "tth"
     • axes (write):
     • parameters:
       • x [0.0]: the x coordinate of the surface \(\vec{n}\)
       • y [1.0]: the y coordinate of the surface \(\vec{n}\)
       • z [0.0]: the z coordinate of the surface \(\vec{n}\)

3.8.1 Axes:

3.8.2 Engines:

1. "hkl":
   
   • pseudo axes:
     • "h" : h coordinate of the diffracting plan
     • "k" : k coordinate of the diffracting plan
     • "l" : l coordinate of the diffracting plan

   • mode: "bissector_vertical"
     • axes (read) : "mu", "komega", "kappa", "kphi", "delta", "gamma"
     • axes (write): "komega", "kappa", "kphi", "gamma"
     • parameters: No parameter
   • mode: "constant_omega_vertical"
     • axes (read) : "mu", "komega", "kappa", "kphi", "delta", "gamma"
     • axes (write): "komega", "kappa", "kphi", "gamma"
     • parameters:
       • omega [0.0]: the freezed value
   • mode: "constant_chi_vertical"
     • axes (read) : "mu", "komega", "kappa", "kphi", "delta", "gamma"
     • axes (write): "komega", "kappa", "kphi", "gamma"
     • parameters:
       • chi [0.0]: the freezed value
   • mode: "constant_phi_vertical"
     • axes (read) : "mu", "komega", "kappa", "kphi", "delta", "gamma"
     • axes (write): "komega", "kappa", "kphi", "gamma"
     • parameters:
       • phi [0.0]: the freezed value
   • mode: "lifting_detector_kphi"
     • axes (read) : "mu", "komega", "kappa", "kphi", "delta", "gamma"
     • axes (write): "kphi", "delta", "gamma"
     • parameters: No parameter
   • mode: "lifting_detector_komega"
     • axes (read) : "mu", "komega", "kappa", "kphi", "delta", "gamma"
     • axes (write): "komega", "delta", "gamma"
     • parameters: No parameter
   • mode: "lifting_detector_mu"
     • axes (read) : "mu", "komega", "kappa", "kphi", "delta", "gamma"
     • axes (write): "mu", "delta", "gamma"
     • parameters: No parameter
   • mode: "double_diffraction_vertical"
     • axes (read) : "mu", "komega", "kappa", "kphi", "delta", "gamma"
     • axes (write): "komega", "kappa", "kphi", "gamma"
     • parameters:
       • h2 [1.0]: h coordinate of the second diffracting plan
       • k2 [1.0]: k coordinate of the second diffracting plan
       • l2 [1.0]: l coordinate of the second diffracting plan
   • mode: "bissector_horizontal"
     • axes (read) : "mu", "komega", "kappa", "kphi", "delta", "gamma"
     • axes (write): "mu", "komega", "kappa", "kphi", "delta"
     • parameters: No parameter
   • mode: "constant_phi_horizontal"
     • axes (read) : "mu", "komega", "kappa", "kphi", "delta", "gamma"
     • axes (write): "mu", "komega", "kappa", "kphi", "delta"
     • parameters:
       • phi [0.0]: the freezed value
   • mode: "constant_kphi_horizontal"
     • axes (read) : "mu", "komega", "kappa", "kphi", "delta", "gamma"
     • axes (write): "mu", "komega", "kappa", "delta"
     • parameters: No parameter
   • mode: "double_diffraction_horizontal"
     • axes (read) : "mu", "komega", "kappa", "kphi", "delta", "gamma"
     • axes (write): "mu", "komega", "kappa", "kphi", "delta"
     • parameters:
       • h2 [1.0]: h coordinate of the second diffracting plan
       • k2 [1.0]: k coordinate of the second diffracting plan
       • l2 [1.0]: l coordinate of the second diffracting plan
   • mode: "psi_constant_vertical"
     • axes (read) : "mu", "komega", "kappa", "kphi", "delta", "gamma"
     • axes (write): "komega", "kappa", "kphi", "gamma"
     • parameters:
       • h2 [1.0]: h coordinate of the reference plan
       • k2 [1.0]: k coordinate of the reference plan
       • l2 [1.0]: l coordinate of the reference plan
       • psi [0.0]: expected angle between the reference and the diffraction plans
   • mode: "constant_incidence"
     • axes (read) : "mu", "komega", "kappa", "kphi", "delta", "gamma"
     • axes (write): "komega", "kappa", "kphi", "delta", "gamma"
     • parameters:
       • x [1.0]: the x coordinate of the surface \(\vec{n}\)
       • y [1.0]: the y coordinate of the surface \(\vec{n}\)
       • z [1.0]: the z coordinate of the surface \(\vec{n}\)
       • incidence [0.0]: expected incidence of the incoming beam \(\vec{k_i}\) on the surface.
       • azimuth [90.0]: expected azimuth
2. "eulerians":
   
   • pseudo axes:
     • "omega" : omega equivalent for a four circle eulerian geometry
     • "chi" : chi equivalent for a four circle eulerian geometry
     • "phi" : phi equivalent for a four circle eulerian geometry

   • mode: "eulerians"
     • axes (read) : "komega", "kappa", "kphi"
     • axes (write): "komega", "kappa", "kphi"
     • parameters:
       • solutions [1.0]: (0/1) to select the first or second solution
3. "psi":
   
   • pseudo axes:
     • "psi" : angle between the reference vector and the diffraction plan

   • mode: "psi_vertical_soleil_sirius_kappa"
     • axes (read) : "mu", "komega", "kappa", "kphi", "delta", "gamma"
     • axes (write): "komega", "kappa", "kphi", "gamma"
     • parameters:
       • h2 [1.0]: h coordinate of the reference plan
       • k2 [1.0]: k coordinate of the reference plan
       • l2 [1.0]: l coordinate of the reference plan
4. "q2":
   
   • pseudo axes:
     • "q" : the norm of \(\vec{q}\)
     • "alpha" : angle of the projection of \(\vec{q}\) on the \(yOz\) plan and \(\vec{y}\)

   • mode: "q2"
     • axes (read) : "gamma", "delta"
     • axes (write): "gamma", "delta"
     • parameters: No parameter
5. "qper_qpar":
   
   • pseudo axes:
     • "qper" : perpendicular component of \(\vec{q}\) along the normal of the sample surface
     • "qpar" : parallel component of \(\vec{q}\)

   • mode: "qper_qpar"
     • axes (read) : "gamma", "delta"
     • axes (write): "gamma", "delta"
     • parameters:
       • x [0.0]: the x coordinate of the surface \(\vec{n}\)
       • y [1.0]: the y coordinate of the surface \(\vec{n}\)
       • z [0.0]: the z coordinate of the surface \(\vec{n}\)
6. "tth2":
   
   • pseudo axes:
     • "tth" : the \(2 \theta\) angle
     • "alpha" : angle of the projection of \(\vec{q}\) on the \(yOz\) plan and \(\vec{y}\)

   • mode: "tth2"
     • axes (read) : "gamma", "delta"
     • axes (write): "gamma", "delta"
     • parameters: No parameter
7. "incidence":
   
   • pseudo axes:
     • "incidence" : incidence of the incomming beam.
     • "azimuth" : azimuth of the sample surface (projection of \(\vec{n}\) on the \(yOz\) plan

   • mode: "incidence"
     • axes (read) : "mu", "komega", "kappa", "kphi"
     • axes (write):
     • parameters:
       • x [0.0]: the x coordinate of the surface \(\vec{n}\)
       • y [1.0]: the y coordinate of the surface \(\vec{n}\)
       • z [0.0]: the z coordinate of the surface \(\vec{n}\)
8. "emergence":
   
   • pseudo axes:
     • "emergence" : incidence of the outgoing beam.
     • "azimuth" : azimuth of the sample surface (projection of \(\vec{n}\) on the \(yOz\) plan

   • mode: "emergence"
     • axes (read) : "mu", "komega", "kappa", "kphi", "gamma", "delta"
     • axes (write):
     • parameters:
       • x [0.0]: the x coordinate of the surface \(\vec{n}\)
       • y [1.0]: the y coordinate of the surface \(\vec{n}\)
       • z [0.0]: the z coordinate of the surface \(\vec{n}\)

3.9.1 Axes:

3.9.2 Engines:

1. "hkl":
   
   • pseudo axes:
     • "h" : h coordinate of the diffracting plan
     • "k" : k coordinate of the diffracting plan
     • "l" : l coordinate of the diffracting plan

   • mode: "lifting_detector_thetah"
     • axes (read) : "basepitch", "thetah", "alphay", "alphax", "delta", "gamma"
     • axes (write): "thetah", "delta", "gamma"
     • parameters: No parameter
2. "q2":
   
   • pseudo axes:
     • "q" : the norm of \(\vec{q}\)
     • "alpha" : angle of the projection of \(\vec{q}\) on the \(yOz\) plan and \(\vec{y}\)

   • mode: "q2"
     • axes (read) : "gamma", "delta"
     • axes (write): "gamma", "delta"
     • parameters: No parameter
3. "qper_qpar":
   
   • pseudo axes:
     • "qper" : perpendicular component of \(\vec{q}\) along the normal of the sample surface
     • "qpar" : parallel component of \(\vec{q}\)

   • mode: "qper_qpar"
     • axes (read) : "gamma", "delta"
     • axes (write): "gamma", "delta"
     • parameters:
       • x [0.0]: the x coordinate of the surface \(\vec{n}\)
       • y [1.0]: the y coordinate of the surface \(\vec{n}\)
       • z [0.0]: the z coordinate of the surface \(\vec{n}\)
4. "tth2":
   
   • pseudo axes:
     • "tth" : the \(2 \theta\) angle
     • "alpha" : angle of the projection of \(\vec{q}\) on the \(yOz\) plan and \(\vec{y}\)

   • mode: "tth2"
     • axes (read) : "gamma", "delta"
     • axes (write): "gamma", "delta"
     • parameters: No parameter
5. "incidence":
   
   • pseudo axes:
     • "incidence" : incidence of the incomming beam.
     • "azimuth" : azimuth of the sample surface (projection of \(\vec{n}\) on the \(yOz\) plan

   • mode: "incidence"
     • axes (read) : "basepitch", "thetah", "alphay", "alphax"
     • axes (write):
     • parameters:
       • x [0.0]: the x coordinate of the surface \(\vec{n}\)
       • y [0.0]: the y coordinate of the surface \(\vec{n}\)
       • z [1.0]: the z coordinate of the surface \(\vec{n}\)
6. "emergence":
   
   • pseudo axes:
     • "emergence" : incidence of the outgoing beam.
     • "azimuth" : azimuth of the sample surface (projection of \(\vec{n}\) on the \(yOz\) plan

   • mode: "emergence"
     • axes (read) : "basepitch", "thetah", "alphay", "alphax", "delta", "gamma"
     • axes (write):
     • parameters:
       • x [0.0]: the x coordinate of the surface \(\vec{n}\)
       • y [0.0]: the y coordinate of the surface \(\vec{n}\)
       • z [1.0]: the z coordinate of the surface \(\vec{n}\)

3.10.1 Axes:

3.10.2 Engines:

1. "hkl":
   
   • pseudo axes:
     • "h" : h coordinate of the diffracting plan
     • "k" : k coordinate of the diffracting plan
     • "l" : l coordinate of the diffracting plan

   • mode: "pitch_fixed"
     • axes (read) : "pitch", "mu", "gamma", "delta"
     • axes (write): "mu", "gamma", "delta"
     • parameters: No parameter
   • mode: "delta_fixed"
     • axes (read) : "pitch", "mu", "gamma", "delta"
     • axes (write): "pitch", "mu", "gamma"
     • parameters: No parameter
2. "q2":
   
   • pseudo axes:
     • "q" : the norm of \(\vec{q}\)
     • "alpha" : angle of the projection of \(\vec{q}\) on the \(yOz\) plan and \(\vec{y}\)

   • mode: "q2"
     • axes (read) : "gamma", "delta"
     • axes (write): "gamma", "delta"
     • parameters: No parameter
3. "qper_qpar":
   
   • pseudo axes:
     • "qper" : perpendicular component of \(\vec{q}\) along the normal of the sample surface
     • "qpar" : parallel component of \(\vec{q}\)

   • mode: "qper_qpar"
     • axes (read) : "gamma", "delta"
     • axes (write): "gamma", "delta"
     • parameters:
       • x [0.0]: the x coordinate of the surface \(\vec{n}\)
       • y [1.0]: the y coordinate of the surface \(\vec{n}\)
       • z [0.0]: the z coordinate of the surface \(\vec{n}\)
4. "tth2":
   
   • pseudo axes:
     • "tth" : the \(2 \theta\) angle
     • "alpha" : angle of the projection of \(\vec{q}\) on the \(yOz\) plan and \(\vec{y}\)

   • mode: "tth2"
     • axes (read) : "gamma", "delta"
     • axes (write): "gamma", "delta"
     • parameters: No parameter
5. "incidence":
   
   • pseudo axes:
     • "incidence" : incidence of the incomming beam.
     • "azimuth" : azimuth of the sample surface (projection of \(\vec{n}\) on the \(yOz\) plan

   • mode: "incidence"
     • axes (read) : "pitch", "mu"
     • axes (write):
     • parameters:
       • x [0.0]: the x coordinate of the surface \(\vec{n}\)
       • y [0.0]: the y coordinate of the surface \(\vec{n}\)
       • z [1.0]: the z coordinate of the surface \(\vec{n}\)
6. "emergence":
   
   • pseudo axes:
     • "emergence" : incidence of the outgoing beam.
     • "azimuth" : azimuth of the sample surface (projection of \(\vec{n}\) on the \(yOz\) plan

   • mode: "emergence"
     • axes (read) : "pitch", "mu", "gamma", "delta"
     • axes (write):
     • parameters:
       • x [0.0]: the x coordinate of the surface \(\vec{n}\)
       • y [0.0]: the y coordinate of the surface \(\vec{n}\)
       • z [1.0]: the z coordinate of the surface \(\vec{n}\)

3.11.1 Axes:

3.11.2 Engines:

1. "hkl":
   
   • pseudo axes:
     • "h" : h coordinate of the diffracting plan
     • "k" : k coordinate of the diffracting plan
     • "l" : l coordinate of the diffracting plan

   • mode: "mu_fixed"
     • axes (read) : "beta", "mu", "omega", "gamma", "delta"
     • axes (write): "omega", "gamma", "delta"
     • parameters: No parameter
   • mode: "reflectivity"
     • axes (read) : "beta", "mu", "omega", "gamma", "delta"
     • axes (write): "mu", "omega", "gamma", "delta"
     • parameters: No parameter
   • mode: "emergence_fixed"
     • axes (read) : "beta", "mu", "omega", "gamma", "delta"
     • axes (write): "mu", "omega", "gamma", "delta"
     • parameters:
       • x [0.0]: the x coordinate of the surface \(\vec{n}\)
       • y [1.0]: the y coordinate of the surface \(\vec{n}\)
       • z [0.0]: the z coordinate of the surface \(\vec{n}\)
       • emergence [0.0]: expected emergence of the outgoing beam \(\vec{k_f}\) from the surface \(\vec{n}\).
2. "q2":
   
   • pseudo axes:
     • "q" : the norm of \(\vec{q}\)
     • "alpha" : angle of the projection of \(\vec{q}\) on the \(yOz\) plan and \(\vec{y}\)

   • mode: "q2"
     • axes (read) : "gamma", "delta"
     • axes (write): "gamma", "delta"
     • parameters: No parameter
3. "qper_qpar":
   
   • pseudo axes:
     • "qper" : perpendicular component of \(\vec{q}\) along the normal of the sample surface
     • "qpar" : parallel component of \(\vec{q}\)

   • mode: "qper_qpar"
     • axes (read) : "gamma", "delta"
     • axes (write): "gamma", "delta"
     • parameters:
       • x [0.0]: the x coordinate of the surface \(\vec{n}\)
       • y [1.0]: the y coordinate of the surface \(\vec{n}\)
       • z [0.0]: the z coordinate of the surface \(\vec{n}\)
4. "tth2":
   
   • pseudo axes:
     • "tth" : the \(2 \theta\) angle
     • "alpha" : angle of the projection of \(\vec{q}\) on the \(yOz\) plan and \(\vec{y}\)

   • mode: "tth2"
     • axes (read) : "gamma", "delta"
     • axes (write): "gamma", "delta"
     • parameters: No parameter
5. "incidence":
   
   • pseudo axes:
     • "incidence" : incidence of the incomming beam.
     • "azimuth" : azimuth of the sample surface (projection of \(\vec{n}\) on the \(yOz\) plan

   • mode: "incidence"
     • axes (read) : "beta", "mu", "omega"
     • axes (write):
     • parameters:
       • x [0.0]: the x coordinate of the surface \(\vec{n}\)
       • y [1.0]: the y coordinate of the surface \(\vec{n}\)
       • z [0.0]: the z coordinate of the surface \(\vec{n}\)
6. "emergence":
   
   • pseudo axes:
     • "emergence" : incidence of the outgoing beam.
     • "azimuth" : azimuth of the sample surface (projection of \(\vec{n}\) on the \(yOz\) plan

   • mode: "emergence"
     • axes (read) : "beta", "mu", "omega", "gamma", "delta"
     • axes (write):
     • parameters:
       • x [0.0]: the x coordinate of the surface \(\vec{n}\)
       • y [1.0]: the y coordinate of the surface \(\vec{n}\)
       • z [0.0]: the z coordinate of the surface \(\vec{n}\)

3.12.1 Axes:

3.12.2 Engines:

1. "hkl":
   
   • pseudo axes:
     • "h" : h coordinate of the diffracting plan
     • "k" : k coordinate of the diffracting plan
     • "l" : l coordinate of the diffracting plan

   • mode: "mu_fixed"
     • axes (read) : "beta", "mu", "omega", "gamma", "delta", "eta_a"
     • axes (write): "omega", "gamma", "delta"
     • parameters: No parameter
   • mode: "gamma_fixed"
     • axes (read) : "beta", "mu", "omega", "gamma", "delta", "eta_a"
     • axes (write): "mu", "omega", "delta"
     • parameters: No parameter
   • mode: "emergence_fixed"
     • axes (read) : "beta", "mu", "omega", "gamma", "delta", "eta_a"
     • axes (write): "mu", "omega", "gamma", "delta"
     • parameters:
       • x [0.0]: the x coordinate of the surface \(\vec{n}\)
       • y [1.0]: the y coordinate of the surface \(\vec{n}\)
       • z [0.0]: the z coordinate of the surface \(\vec{n}\)
       • emergence [0.0]: expected emergence of the outgoing beam \(\vec{k_f}\) from the surface \(\vec{n}\).
2. "q2":
   
   • pseudo axes:
     • "q" : the norm of \(\vec{q}\)
     • "alpha" : angle of the projection of \(\vec{q}\) on the \(yOz\) plan and \(\vec{y}\)

   • mode: "q2"
     • axes (read) : "gamma", "delta"
     • axes (write): "gamma", "delta"
     • parameters: No parameter
3. "qper_qpar":
   
   • pseudo axes:
     • "qper" : perpendicular component of \(\vec{q}\) along the normal of the sample surface
     • "qpar" : parallel component of \(\vec{q}\)

   • mode: "qper_qpar"
     • axes (read) : "gamma", "delta"
     • axes (write): "gamma", "delta"
     • parameters:
       • x [0.0]: the x coordinate of the surface \(\vec{n}\)
       • y [1.0]: the y coordinate of the surface \(\vec{n}\)
       • z [0.0]: the z coordinate of the surface \(\vec{n}\)
4. "tth2":
   
   • pseudo axes:
     • "tth" : the \(2 \theta\) angle
     • "alpha" : angle of the projection of \(\vec{q}\) on the \(yOz\) plan and \(\vec{y}\)

   • mode: "tth2"
     • axes (read) : "gamma", "delta"
     • axes (write): "gamma", "delta"
     • parameters: No parameter
5. "incidence":
   
   • pseudo axes:
     • "incidence" : incidence of the incomming beam.
     • "azimuth" : azimuth of the sample surface (projection of \(\vec{n}\) on the \(yOz\) plan

   • mode: "incidence"
     • axes (read) : "beta", "mu", "omega"
     • axes (write):
     • parameters:
       • x [0.0]: the x coordinate of the surface \(\vec{n}\)
       • y [1.0]: the y coordinate of the surface \(\vec{n}\)
       • z [0.0]: the z coordinate of the surface \(\vec{n}\)
6. "emergence":
   
   • pseudo axes:
     • "emergence" : incidence of the outgoing beam.
     • "azimuth" : azimuth of the sample surface (projection of \(\vec{n}\) on the \(yOz\) plan

   • mode: "emergence"
     • axes (read) : "beta", "mu", "omega", "gamma", "delta"
     • axes (write):
     • parameters:
       • x [0.0]: the x coordinate of the surface \(\vec{n}\)
       • y [1.0]: the y coordinate of the surface \(\vec{n}\)
       • z [0.0]: the z coordinate of the surface \(\vec{n}\)

3.13.1 Axes:

3.13.2 Engines:

3.14.1 Axes:

3.14.2 Engines:

1. "hkl":
   
   • pseudo axes:
     • "h" : h coordinate of the diffracting plan
     • "k" : k coordinate of the diffracting plan
     • "l" : l coordinate of the diffracting plan

   • mode: "zaxis"
     • axes (read) : "mu", "omega", "delta", "gamma"
     • axes (write): "omega", "delta", "gamma"
     • parameters: No parameter
   • mode: "reflectivity"
     • axes (read) : "mu", "omega", "delta", "gamma"
     • axes (write): "mu", "omega", "delta", "gamma"
     • parameters: No parameter
2. "q2":
   
   • pseudo axes:
     • "q" : the norm of \(\vec{q}\)
     • "alpha" : angle of the projection of \(\vec{q}\) on the \(yOz\) plan and \(\vec{y}\)

   • mode: "q2"
     • axes (read) : "gamma", "delta"
     • axes (write): "gamma", "delta"
     • parameters: No parameter
3. "qper_qpar":
   
   • pseudo axes:
     • "qper" : perpendicular component of \(\vec{q}\) along the normal of the sample surface
     • "qpar" : parallel component of \(\vec{q}\)

   • mode: "qper_qpar"
     • axes (read) : "gamma", "delta"
     • axes (write): "gamma", "delta"
     • parameters:
       • x [0.0]: the x coordinate of the surface \(\vec{n}\)
       • y [1.0]: the y coordinate of the surface \(\vec{n}\)
       • z [0.0]: the z coordinate of the surface \(\vec{n}\)
4. "tth2":
   
   • pseudo axes:
     • "tth" : the \(2 \theta\) angle
     • "alpha" : angle of the projection of \(\vec{q}\) on the \(yOz\) plan and \(\vec{y}\)

   • mode: "tth2"
     • axes (read) : "gamma", "delta"
     • axes (write): "gamma", "delta"
     • parameters: No parameter
5. "incidence":
   
   • pseudo axes:
     • "incidence" : incidence of the incomming beam.
     • "azimuth" : azimuth of the sample surface (projection of \(\vec{n}\) on the \(yOz\) plan

   • mode: "incidence"
     • axes (read) : "mu", "omega"
     • axes (write):
     • parameters:
       • x [0.0]: the x coordinate of the surface \(\vec{n}\)
       • y [1.0]: the y coordinate of the surface \(\vec{n}\)
       • z [0.0]: the z coordinate of the surface \(\vec{n}\)
6. "emergence":
   
   • pseudo axes:
     • "emergence" : incidence of the outgoing beam.
     • "azimuth" : azimuth of the sample surface (projection of \(\vec{n}\) on the \(yOz\) plan

   • mode: "emergence"
     • axes (read) : "mu", "omega", "delta", "gamma"
     • axes (write):
     • parameters:
       • x [0.0]: the x coordinate of the surface \(\vec{n}\)
       • y [1.0]: the y coordinate of the surface \(\vec{n}\)
       • z [0.0]: the z coordinate of the surface \(\vec{n}\)

4.3.1 Bug reporting

4.3.2 Providing patches

git checkout -b my-next next

git commit -a

git commit -a

git format-patch origin/next

git config sendemail.to "picca@synchrotron-soleil.fr"

git send-email 0001-xxx.patch, 0002-xxx.patch, ...

4.4.1 Add a diffractometer

4.4.2 Work on the documentation

cd Documentation
make doc-edit

6.1.1 DONE add emergence on all e4c diffractometers <2017-03-16 Thu>

6.1.2 DONE Fix for multiarch (headers) <2016-05-04 mer.>

6.1.3 DONE Fix the FTBFS with the new bullet 2.86.1 version <2017-08-13 dim.>

6.2.1 DONE HklEngine <2016-01-20 mer.>

6.2.2 DONE HklVector <2016-02-09 mar.>

6.2.3 DONE HklParameter <2016-02-25 Thu>

6.2.4 DONE HklGeometry <2016-04-20 mer.>

qr = geometry.sample_rotation_get(sample)
qd = geometry.detector_rotation_get(detector)

6.2.5 DONE HklQuaternion <2016-04-20 mer.>

def hkl_matrix_to_numpy(m):
    M = empty((3, 3))
    for i in range(3):
        for j in range(3):
            M[i, j] = m.get(i, j)
    return M


M = hkl_matrix_to_numpy(q.to_matrix())

6.2.6 DONE Soleil Sirius Turret <2016-04-26 mar.>

6.5.1 DONE HklInterval <2015-07-03 ven.>

6.5.2 DONE PATH_MAX <2015-07-03 ven.>

6.6.1 DONE HklEngine

1. "emergence" <2015-06-22 lun.>
   

   Add a new emergence engine which contain only one pseudo axis.

   • emergence the outgoing beam emergence from the sample's surface.
   • azimuth the sample's surface azimuth.

6.7.1 DONE HklLattice add an hkl_lattice_volume_get

volume = hkl_lattice_volume_get(lattice);

6.7.2 DONE HklEngine

1. "nrj, sample, … dependencies" <2015-03-24 mar.>
   

   Add the hkl_engine_dependencies_get method which return if the HklEngine depends of the axes, the energy, or the sample. the possible values are stored in the HklEngineDependencies enum.

   dependencies = hkl_engine_dependencies_get(engine);
   if (dependencies & HKL_ENGINE_DEPENDENCIES_ENERGY) {
           ...
   }
   if (dependencies & HKL_ENGINE_DEPENDENCIES_SAMPLE) {
           ...
   }
   ...
   

2. "tth2" <2015-04-03 ven>
   

   Add a new hkl engine which contain two pseudo axes.

   • tth two times the diffraction angle \(\theta\)
   • alpha the azimuth of q in the zOy plan.
3. "incidence" <2015-04-21 mar.>
   

   Add a new incidence engine which contain only one pseudo axis.

   • incidence the incoming beam incidence on the sample surface.
   • azimuth the sample surface azimuth.
4. hkl_engine_parameter_set <2015-05-04 lun.>
   

   Fix a bug and expose the method in the binding.

5. general
   
   • use #define AXIS "axis_name" in all the code to set the axes names at only one place. <2015-04-23 jeu.>

6.7.3 DONE HklLattice expose in the binding the _x_get/set methods <2015-03-24 mar.>

a = lattice.a_get()
lattice.a_set(a)

6.7.4 DONE HklSampleReflection expose the flag_get/set and geometry_get/set method <2015-03-24 mar.>

flag = reflection.flag_get()
reflection.flag_set(flag)

geometry = reflection.geometry_get()
geometry.axes_values_set([omega, chi, phi, ...])
reflection.geometry_set(geometry)

7.1.1 TODO HklEngine q/q2

7.1.2 TODO HklSource

7.1.3 TODO SOLEIL SIRIUS KAPPA

Geometry SOLEIL SIRIUS KAPPA (Source 1.4586370000000007e-9 m) (fromList [-0.5193202,40.795148838481424,134.08834052117254,-55.57809067120416,-2.23369e-2,14.824478553649875]) (Just [Parameter "mu" (-0.5193202) (Range (-180.0) 180.0),Parameter "komega" 40.795148838481424 (Range (-180.0) 180.0),Parameter "kappa" 134.08834052117254 (Range (-180.0) 180.0),Parameter "kphi" (-55.57809067120416) (Range (-180.0) 180.0),Parameter "delta" (-2.23369e-2) (Range (-180.0) 180.0),Parameter "gamma" 14.824478553649875 (Range (-180.0) 180.0)])
[Engine "hkl" [Parameter "h" 2.1481674408578524e-8 (Range (-1.0) 1.0),Parameter "k" 6.392014061803081e-8 (Range (-1.0) 1.0),Parameter "l" 1.0000000132413767 (Range (-1.0) 1.0)] (Mode "bissector_vertical" []),Engine "eulerians" [Parameter "omega" 7.412239314132745 (Range (-180.0) 180.0),Parameter "chi" 89.72020738176312 (Range (-180.0) 180.0),Parameter "phi" 91.03899980444716 (Range (-180.0) 180.0)] (Mode "eulerians" [Parameter "solutions" 1.0 (Range 0.0 1.0)]),Engine "psi" [Parameter "psi" 154.5513657893786 (Range (-180.0) 180.0)] (Mode "psi_vertical_soleil_sirius_kappa" [Parameter "h2" 1.0 (Range (-1.0) 1.0),Parameter "k2" 1.0 (Range (-1.0) 1.0),Parameter "l2" 1.0 (Range (-1.0) 1.0)]),Engine "q2" [Parameter "q" 1.1114190632688228 (Range 0.0 1.0),Parameter "alpha" 89.91560430137815 (Range (-180.0) 180.0)] (Mode "q2" []),Engine "qper_qpar" [Parameter "qper" 1.1114162413072137 (Range (-1.0) 1.0),Parameter "qpar" 2.5045470426602284e-3 (Range (-1.0) 1.0)] (Mode "qper_qpar" [Parameter "x" 0.0 (Range (-1.0) 1.0),Parameter "y" 1.0 (Range (-1.0) 1.0),Parameter "z" 0.0 (Range (-1.0) 1.0)]),Engine "tth2" [Parameter "tth" 14.824495004588014 (Range (-180.0) 180.0),Parameter "alpha" 89.91560430137815 (Range (-180.0) 180.0)] (Mode "tth2" []),Engine "incidence" [Parameter "incidence" 7.414401593159588 (Range (-180.0) 180.0),Parameter "azimuth" 89.78541978058817 (Range (-180.0) 180.0)] (Mode "incidence" [Parameter "x" 0.0 (Range (-1.0) 1.0),Parameter "y" 1.0 (Range (-1.0) 1.0),Parameter "z" 0.0 (Range (-1.0) 1.0)]),Engine "emergence" [Parameter "emergence" 7.410055570443473 (Range (-180.0) 180.0),Parameter "azimuth" 89.78541978058817 (Range (-180.0) 180.0)] (Mode "emergence" [Parameter "x" 0.0 (Range (-1.0) 1.0),Parameter "y" 1.0 (Range (-1.0) 1.0),Parameter "z" 0.0 (Range (-1.0) 1.0)])]
Geometry SOLEIL SIRIUS KAPPA (Source 1.4586370000000007e-9 m) (fromList [-0.5193202,47.97247473743512,134.654265266118,124.92415016158583,-2.23369e-2,29.904632884360968]) (Just [Parameter "mu" (-0.5193202) (Range (-180.0) 180.0),Parameter "komega" 47.97247473743512 (Range (-180.0) 180.0),Parameter "kappa" 134.654265266118 (Range (-180.0) 180.0),Parameter "kphi" 124.92415016158583 (Range (-180.0) 180.0),Parameter "delta" (-2.23369e-2) (Range (-180.0) 180.0),Parameter "gamma" 29.904632884360968 (Range (-180.0) 180.0)])
[Engine "hkl" [Parameter "h" (-1.3839931497468412e-9) (Range (-1.0) 1.0),Parameter "k" (-4.913404854447784e-10) (Range (-1.0) 1.0),Parameter "l" 2.000000003360829 (Range (-1.0) 1.0)] (Mode "bissector_vertical" []),Engine "eulerians" [Parameter "omega" 14.95231642186499 (Range (-180.0) 180.0),Parameter "chi" 89.9575990161042 (Range (-180.0) 180.0),Parameter "phi" 271.9039918460157 (Range (-180.0) 180.0)] (Mode "eulerians" [Parameter "solutions" 1.0 (Range 0.0 1.0)]),Engine "psi" [Parameter "psi" (-26.325999847139332) (Range (-180.0) 180.0)] (Mode "psi_vertical_soleil_sirius_kappa" [Parameter "h2" 1.0 (Range (-1.0) 1.0),Parameter "k2" 1.0 (Range (-1.0) 1.0),Parameter "l2" 1.0 (Range (-1.0) 1.0)]),Engine "q2" [Parameter "q" 2.2228381008394895 (Range 0.0 1.0),Parameter "alpha" 89.96116221471468 (Range (-180.0) 180.0)] (Mode "q2" []),Engine "qper_qpar" [Parameter "qper" 2.222832456913507 (Range (-1.0) 1.0),Parameter "qpar" (-5.009095284686147e-3) (Range (-1.0) 1.0)] (Mode "qper_qpar" [Parameter "x" 0.0 (Range (-1.0) 1.0),Parameter "y" 1.0 (Range (-1.0) 1.0),Parameter "z" 0.0 (Range (-1.0) 1.0)]),Engine "tth2" [Parameter "tth" 29.90464045486422 (Range (-180.0) 180.0),Parameter "alpha" 89.96116221471468 (Range (-180.0) 180.0)] (Mode "tth2" []),Engine "incidence" [Parameter "incidence" 14.952081490954424 (Range (-180.0) 180.0),Parameter "azimuth" 90.09480115642252 (Range (-180.0) 180.0)] (Mode "incidence" [Parameter "x" 0.0 (Range (-1.0) 1.0),Parameter "y" 1.0 (Range (-1.0) 1.0),Parameter "z" 0.0 (Range (-1.0) 1.0)]),Engine "emergence" [Parameter "emergence" 14.952481262345229 (Range (-180.0) 180.0),Parameter "azimuth" 90.09480115642252 (Range (-180.0) 180.0)] (Mode "emergence" [Parameter "x" 0.0 (Range (-1.0) 1.0),Parameter "y" 1.0 (Range (-1.0) 1.0),Parameter "z" 0.0 (Range (-1.0) 1.0)])]
Geometry SOLEIL SIRIUS KAPPA (Source 1.4586370000000007e-9 m) (fromList [-0.5193202,56.25907471532187,133.92128004831832,-55.45556970293517,-2.23369e-2,45.53873596992208]) (Just [Parameter "mu" (-0.5193202) (Range (-180.0) 180.0),Parameter "komega" 56.25907471532187 (Range (-180.0) 180.0),Parameter "kappa" 133.92128004831832 (Range (-180.0) 180.0),Parameter "kphi" (-55.45556970293517) (Range (-180.0) 180.0),Parameter "delta" (-2.23369e-2) (Range (-180.0) 180.0),Parameter "gamma" 45.53873596992208 (Range (-180.0) 180.0)])
[Engine "hkl" [Parameter "h" 8.37724528421826e-9 (Range (-1.0) 1.0),Parameter "k" 2.018612859089285e-8 (Range (-1.0) 1.0),Parameter "l" 2.999999983141756 (Range (-1.0) 1.0)] (Mode "bissector_vertical" []),Engine "eulerians" [Parameter "omega" 22.76936798418434 (Range (-180.0) 180.0),Parameter "chi" 89.64969149765572 (Range (-180.0) 180.0),Parameter "phi" 91.0547235659273 (Range (-180.0) 180.0)] (Mode "eulerians" [Parameter "solutions" 1.0 (Range 0.0 1.0)]),Engine "psi" [Parameter "psi" 154.50191592522592 (Range (-180.0) 180.0)] (Mode "psi_vertical_soleil_sirius_kappa" [Parameter "h2" 1.0 (Range (-1.0) 1.0),Parameter "k2" 1.0 (Range (-1.0) 1.0),Parameter "l2" 1.0 (Range (-1.0) 1.0)]),Engine "q2" [Parameter "q" 3.334257126919726 (Range 0.0 1.0),Parameter "alpha" 89.97807925598289 (Range (-180.0) 180.0)] (Mode "q2" []),Engine "qper_qpar" [Parameter "qper" 3.334248661038927 (Range (-1.0) 1.0),Parameter "qpar" 7.513639271725189e-3 (Range (-1.0) 1.0)] (Mode "qper_qpar" [Parameter "x" 0.0 (Range (-1.0) 1.0),Parameter "y" 1.0 (Range (-1.0) 1.0),Parameter "z" 0.0 (Range (-1.0) 1.0)]),Engine "tth2" [Parameter "tth" 45.53874024285007 (Range (-180.0) 180.0),Parameter "alpha" 89.97807925598289 (Range (-180.0) 180.0)] (Mode "tth2" []),Engine "incidence" [Parameter "incidence" 22.771374111123095 (Range (-180.0) 180.0),Parameter "azimuth" 89.8380685773065 (Range (-180.0) 180.0)] (Mode "incidence" [Parameter "x" 0.0 (Range (-1.0) 1.0),Parameter "y" 1.0 (Range (-1.0) 1.0),Parameter "z" 0.0 (Range (-1.0) 1.0)]),Engine "emergence" [Parameter "emergence" 22.767244039797937 (Range (-180.0) 180.0),Parameter "azimuth" 89.8380685773065 (Range (-180.0) 180.0)] (Mode "emergence" [Parameter "x" 0.0 (Range (-1.0) 1.0),Parameter "y" 1.0 (Range (-1.0) 1.0),Parameter "z" 0.0 (Range (-1.0) 1.0)])]
Geometry SOLEIL SIRIUS KAPPA (Source 1.4586370000000007e-9 m) (fromList [-0.5193202,64.64191214924969,133.78682078017752,-55.41938838621407,-2.23369e-2,62.132688461209455]) (Just [Parameter "mu" (-0.5193202) (Range (-180.0) 180.0),Parameter "komega" 64.64191214924969 (Range (-180.0) 180.0),Parameter "kappa" 133.78682078017752 (Range (-180.0) 180.0),Parameter "kphi" (-55.41938838621407) (Range (-180.0) 180.0),Parameter "delta" (-2.23369e-2) (Range (-180.0) 180.0),Parameter "gamma" 62.132688461209455 (Range (-180.0) 180.0)])
[Engine "hkl" [Parameter "h" 9.177457430250849e-9 (Range (-1.0) 1.0),Parameter "k" 2.5693823994163015e-8 (Range (-1.0) 1.0),Parameter "l" 3.9999999929703476 (Range (-1.0) 1.0)] (Mode "bissector_vertical" []),Engine "eulerians" [Parameter "omega" 31.06634423136446 (Range (-180.0) 180.0),Parameter "chi" 89.5927920859556 (Range (-180.0) 180.0),Parameter "phi" 91.00504369590071 (Range (-180.0) 180.0)] (Mode "eulerians" [Parameter "solutions" 1.0 (Range 0.0 1.0)]),Engine "psi" [Parameter "psi" 154.51996903181714 (Range (-180.0) 180.0)] (Mode "psi_vertical_soleil_sirius_kappa" [Parameter "h2" 1.0 (Range (-1.0) 1.0),Parameter "k2" 1.0 (Range (-1.0) 1.0),Parameter "l2" 1.0 (Range (-1.0) 1.0)]),Engine "q2" [Parameter "q" 4.44567618639551 (Range 0.0 1.0),Parameter "alpha" 89.9881895320358 (Range (-180.0) 180.0)] (Mode "q2" []),Engine "qper_qpar" [Parameter "qper" 4.445664898550648 (Range (-1.0) 1.0),Parameter "qpar" 1.0018187400499787e-2 (Range (-1.0) 1.0)] (Mode "qper_qpar" [Parameter "x" 0.0 (Range (-1.0) 1.0),Parameter "y" 1.0 (Range (-1.0) 1.0),Parameter "z" 0.0 (Range (-1.0) 1.0)]),Engine "tth2" [Parameter "tth" 62.13269076337942 (Range (-180.0) 180.0),Parameter "alpha" 89.9881895320358 (Range (-180.0) 180.0)] (Mode "tth2" []),Engine "incidence" [Parameter "incidence" 31.068363501362125 (Range (-180.0) 180.0),Parameter "azimuth" 89.83747231179481 (Range (-180.0) 180.0)] (Mode "incidence" [Parameter "x" 0.0 (Range (-1.0) 1.0),Parameter "y" 1.0 (Range (-1.0) 1.0),Parameter "z" 0.0 (Range (-1.0) 1.0)]),Engine "emergence" [Parameter "emergence" 31.064152026450454 (Range (-180.0) 180.0),Parameter "azimuth" 89.83747231179481 (Range (-180.0) 180.0)] (Mode "emergence" [Parameter "x" 0.0 (Range (-1.0) 1.0),Parameter "y" 1.0 (Range (-1.0) 1.0),Parameter "z" 0.0 (Range (-1.0) 1.0)])]
Geometry SOLEIL SIRIUS KAPPA (Source 1.4586370000000007e-9 m) (fromList [-0.5193202,73.83399863752925,133.64586701159254,-55.35712475482595,-2.23369e-2,80.33702663350934]) (Just [Parameter "mu" (-0.5193202) (Range (-180.0) 180.0),Parameter "komega" 73.83399863752925 (Range (-180.0) 180.0),Parameter "kappa" 133.64586701159254 (Range (-180.0) 180.0),Parameter "kphi" (-55.35712475482595) (Range (-180.0) 180.0),Parameter "delta" (-2.23369e-2) (Range (-180.0) 180.0),Parameter "gamma" 80.33702663350934 (Range (-180.0) 180.0)])
[Engine "hkl" [Parameter "h" 2.7577312257761425e-9 (Range (-1.0) 1.0),Parameter "k" 7.650403950118726e-9 (Range (-1.0) 1.0),Parameter "l" 4.999999999622215 (Range (-1.0) 1.0)] (Mode "bissector_vertical" []),Engine "eulerians" [Parameter "omega" 40.168513316578995 (Range (-180.0) 180.0),Parameter "chi" 89.53300638651663 (Range (-180.0) 180.0),Parameter "phi" 90.9773899242238 (Range (-180.0) 180.0)] (Mode "eulerians" [Parameter "solutions" 1.0 (Range 0.0 1.0)]),Engine "psi" [Parameter "psi" 154.50326819560394 (Range (-180.0) 180.0)] (Mode "psi_vertical_soleil_sirius_kappa" [Parameter "h2" 1.0 (Range (-1.0) 1.0),Parameter "k2" 1.0 (Range (-1.0) 1.0),Parameter "l2" 1.0 (Range (-1.0) 1.0)]),Engine "q2" [Parameter "q" 5.557095242340622 (Range 0.0 1.0),Parameter "alpha" 89.99619673890915 (Range (-180.0) 180.0)] (Mode "q2" []),Engine "qper_qpar" [Parameter "qper" 5.557081132533362 (Range (-1.0) 1.0),Parameter "qpar" 1.2522734784728349e-2 (Range (-1.0) 1.0)] (Mode "qper_qpar" [Parameter "x" 0.0 (Range (-1.0) 1.0),Parameter "y" 1.0 (Range (-1.0) 1.0),Parameter "z" 0.0 (Range (-1.0) 1.0)]),Engine "tth2" [Parameter "tth" 80.33702737486469 (Range (-180.0) 180.0),Parameter "alpha" 89.99619673890915 (Range (-180.0) 180.0)] (Mode "tth2" []),Engine "incidence" [Parameter "incidence" 40.17045932119529 (Range (-180.0) 180.0),Parameter "azimuth" 89.82724901343079 (Range (-180.0) 180.0)] (Mode "incidence" [Parameter "x" 0.0 (Range (-1.0) 1.0),Parameter "y" 1.0 (Range (-1.0) 1.0),Parameter "z" 0.0 (Range (-1.0) 1.0)]),Engine "emergence" [Parameter "emergence" 40.16632251480728 (Range (-180.0) 180.0),Parameter "azimuth" 89.82724901343079 (Range (-180.0) 180.0)] (Mode "emergence" [Parameter "x" 0.0 (Range (-1.0) 1.0),Parameter "y" 1.0 (Range (-1.0) 1.0),Parameter "z" 0.0 (Range (-1.0) 1.0)])]
Geometry SOLEIL SIRIUS KAPPA (Source 1.4586370000000007e-9 m) (fromList [-0.5193202,84.086619565407,134.11156620489382,125.37371040144704,-2.23369e-2,101.43713587367031]) (Just [Parameter "mu" (-0.5193202) (Range (-180.0) 180.0),Parameter "komega" 84.086619565407 (Range (-180.0) 180.0),Parameter "kappa" 134.11156620489382 (Range (-180.0) 180.0),Parameter "kphi" 125.37371040144704 (Range (-180.0) 180.0),Parameter "delta" (-2.23369e-2) (Range (-180.0) 180.0),Parameter "gamma" 101.43713587367031 (Range (-180.0) 180.0)])
[Engine "hkl" [Parameter "h" 8.392762843275724e-10 (Range (-1.0) 1.0),Parameter "k" 2.459154264227675e-9 (Range (-1.0) 1.0),Parameter "l" 6.0000000015375905 (Range (-1.0) 1.0)] (Mode "bissector_vertical" []),Engine "eulerians" [Parameter "omega" 50.718567936651276 (Range (-180.0) 180.0),Parameter "chi" 89.72999512595882 (Range (-180.0) 180.0),Parameter "phi" 272.0056587726913 (Range (-180.0) 180.0)] (Mode "eulerians" [Parameter "solutions" 1.0 (Range 0.0 1.0)]),Engine "psi" [Parameter "psi" (-26.58708882570157) (Range (-180.0) 180.0)] (Mode "psi_vertical_soleil_sirius_kappa" [Parameter "h2" 1.0 (Range (-1.0) 1.0),Parameter "k2" 1.0 (Range (-1.0) 1.0),Parameter "l2" 1.0 (Range (-1.0) 1.0)]),Engine "q2" [Parameter "q" 6.668514293021504 (Range 0.0 1.0),Parameter "alpha" 90.00451897705055 (Range (-180.0) 180.0)] (Mode "q2" []),Engine "qper_qpar" [Parameter "qper" 6.6684973612522915 (Range (-1.0) 1.0),Parameter "qpar" (-1.5027281967821613e-2) (Range (-1.0) 1.0)] (Mode "qper_qpar" [Parameter "x" 0.0 (Range (-1.0) 1.0),Parameter "y" 1.0 (Range (-1.0) 1.0),Parameter "z" 0.0 (Range (-1.0) 1.0)]),Engine "tth2" [Parameter "tth" 101.43713499280318 (Range (-180.0) 180.0),Parameter "alpha" 90.00451897705055 (Range (-180.0) 180.0)] (Mode "tth2" []),Engine "incidence" [Parameter "incidence" 50.71877816056822 (Range (-180.0) 180.0),Parameter "azimuth" 90.20844936572345 (Range (-180.0) 180.0)] (Mode "incidence" [Parameter "x" 0.0 (Range (-1.0) 1.0),Parameter "y" 1.0 (Range (-1.0) 1.0),Parameter "z" 0.0 (Range (-1.0) 1.0)]),Engine "emergence" [Parameter "emergence" 50.71800112341318 (Range (-180.0) 180.0),Parameter "azimuth" 90.20844936572345 (Range (-180.0) 180.0)] (Mode "emergence" [Parameter "x" 0.0 (Range (-1.0) 1.0),Parameter "y" 1.0 (Range (-1.0) 1.0),Parameter "z" 0.0 (Range (-1.0) 1.0)])

7.1.4 TODO [0/2] PetraIII

1. TODO computation problem
   

   Dear Teresa,

   Using the prruptest.txt ubmatrix I see that the value of psi is offset by 45 degrees. I expect it to be 0 degrees when azimuth reference vector is 0 0 1 that is along the beam. See below thereturned numbers. This might have to do with the definition of the beam axis in the controller. Otherwise now when I change reference vector by 90 degrees the computed value is changed by 90 degrees. That is a progress. Can you contact Frederic and ask him about this ?

   Best regards,

   Sonia

   See below p09/door/haspp09.01 ¹: setaz 1 0 0

   p09/door/haspp09.01 ²: wh

   Engine: hkl

   Mode: psi_constant_vertical

   H K L = 0.00000 3.00605 -0.00000 Ref = 1.00000 0.00000 0.00000 Azimuth (Psi - calculated) = -45.00005 Azimuth (Psi - set) = 0.00000 Wavelength = 2.07957

   Delta Theta Chi Phi Mu Gamma 45.77575 22.88783 90.00000 182.85400 0.00000 -0.00000

   p09/door/haspp09.01 ³: setaz 0 0 1

   p09/door/haspp09.01 ⁴: wh

   Engine: hkl

   Mode: psi_constant_vertical

   H K L = 0.00000 3.00605 -0.00000 Ref = 0.00000 0.00000 1.00000 Azimuth (Psi - calculated) = -135.00005 Azimuth (Psi - set) = 0.00000 Wavelength = 2.07957

   Delta Theta Chi Phi Mu Gamma 45.77575 22.88783 90.00000 182.85400 0.00000 -0.00000

   where:

   Azimuth (Psi - calculated) is the value of the pseudomotor psi. Azimuth (Psi - set) is the value set in the parameter psi of the current mode.

   Hi Frederic,

   This is the UB matrix:

   Best regards,

   Sonia

   Created at 2015-01-21 12:35

   Crystal prruptest

   Wavelength 2.07957463938

   A 8.03656 B 8.03656 C 8.03656 Alpha 90.0 Beta 90.0 Gamma 90.0

   R0 0 0.0 1.0 0.0 0 1 0.0 14.8979 90.0 182.854 0.0 29.7959 R1 1 1.0 0.0 1.0 0 1 0.0 14.8979 0.0 182.854 0.0 29.7959

   Mode psi_constant_vertical

   PsiRef 0.0 0.0 1.0

   U00 -0.580 U01 0.000 U02 0.525 U10 0.000 U11 0.782 U12 -0.000 U20 -0.525 U21 -0.000 U22 -0.580

   Ux 179.999952315 Uy 42.14605 Uz -179.999932647

   SaveDirectory home/p09user/crystals

2. TODO another question
   

   J'ai un probleme avec la position que le controlleur calcule avec la matrice UB que nous t'avons envoye. See sequence of emails echanges avec Teresa.

   >>>> I am at 0 3.00605 0 with phi -182 and psi calculated is -135 >>>> When I freeze psi at -135 and type ca 0 3.00605 0 the controller >> should return to me the positions at which I am. But no he tells me that I >> have to go to 178 degrees in phi that is turning by 360 degrees.

   Est-ce un probleme avec la trajectoire selectionnee ? Est-ce qu'il est possible de definir des cut-points comme dans spec avec ta librairie ?

7.1.5 TODO [2/4] HklParameter

7.1.6 TODO This will help for the documentation and the gui.

7.1.7 TODO HklGeometryList different method to help select a solution.

7.1.8 TODO add a fit on the Hklaxis offsets.

7.1.9 TODO API to put a detector and a sample on the Geometry.

7.1.10 TODO HklSample

1. TODO unit test: hkl_sample_affine.
   

   Check this: lattice=1.540000;1.540000;1.540000;90.000000;90.000000;90.000000;0;0;0;0;0;0 uxuyuz=0.000000;0.000000;0.000000 reflection=1.540000;0.159010;1.256718;0.796660;1;0.000000;0.000000;0.000000;0.000000;0.000000 reflection=1.540000;0.206208;0.342357;-0.080346;1;0.000000;0.000000;0.000000;0.000000;0.000000 reflection=1.540000;0.206208;0.342357;-0.080346;1;0.000000;0.000000;0.000000;0.000000;0.000000

   A, B, C, Alpha, Beta, Gamma, Ux, Uy, Uy: 17764892.133, 5793679.092, 15733785.198, 179.997, 179.999,452408725.23, -575727594.04, -1913661011.01 (affine) 1rst finetness

   all the reflections are non collinear the affine method should warn the user about this.

7.1.11 TODO HklEngine "zone"

7.1.12 TODO HklEngine "custom"

7.1.13 TODO HklEngine "q/q2" add a "reflectivity" mode

7.1.14 TODO create a macro to help compare two real the right way

7.1.15 TODO add an hkl_sample_set_lattice_unit()

7.1.16 TODO SOLEIL SIXS

1. DONE find the right solutions.   zaxis
   

   The cosinus and sinus properties are not enough to find the solution expected by the users. The idea is to use the Ewalds construction to generate a valid solution from the first one obtain numerically. The basic idea is to rotate the hkl vector around the last axis of the sample holder until it intersect again the Ewalds sphere. Then we just need to fit the detector position. This way the solution can be entirely generic (not geometry specific). Nevertheless it is necessary to propose this only for the hkl pseudo axes. I will add this special feature in the Mode. So it will be possible to add thoses special cases easily.

2. TODO Add the DEP diffractometer geometry
   

   This diffractometer is a Newport one based on the kappa 6 circles ones. But instead of a kappa head, they use an Hexapod head. This head can be put horizontally or vertically.

7.1.17 TODO generalisation of the z-axis hkl solver

7.1.18 TODO investigate the prigo geometry.

7.1.19 TODO augeas/elektra for the plugin configure part.

7.1.20 TODO logging

1. TODO [1/2] add in a few methods.
   
   • [X] hkl_pseudo_axes_values_set
   • [ ] hkl_sample_affine
2. TODO gir logging
   

   It would be nice to generate the library logging using the .gir information. So instead of writing the logging code for each method, it would be better to have a generic method for this purpose.

3. TODO parsable logging information.
   

   A parsable logging format would help to setup some re-play unit test. This way it could help during the developpement process (modification of the hkl internals) to be confident that computation are ok.

7.1.21 TODO performances

7.2.1 TODO [1/6] rewrite documentation in org-mode

7.4.1 TODO add a method to find the 3D models in the right directories.

7.5.1 TODO add a .spec file for rpm generation.