Sample¶
The KB nanofocus optics and the sample stack. SRX has a micro endstation and a KB-focused nano endstation; the nano endstation is modelled here. PVs verified against startup/16-nanoES.py and 15-microES.py.
Enclosure: 5-ID-D.
Note
SRX scans the sample through a KB-focused spot for XRF mapping, the same scanning-probe acquisition HXN introduced. The KB mirror pair reuses the Mirror family; the sample stack reuses LinearStage / RotaryStage (XRF-tomography adds a rotation). Interferometric stage feedback (FPS, PICOSCALE) stays on the floor.
| Name | Family | PV | Key specs | Replaceable | Status |
|---|---|---|---|---|---|
NanoKBMirror |
Mirror |
XF:05IDD-ES:1{nKB: |
Kirkpatrick-Baez nanofocusing mirror pair (nanoKB, class SRXNanoKB); reuses the Mirror family. KB slits (jjslits) define the beam onto it. | confirm |
|
SampleStage |
LinearStage |
XF:05IDD-ES:1{nKB:Smpl-Ax: |
Nano-endstation sample stack (nano_stage, class SRXNanoStage): the fine raster axes scanned for XRF mapping. Coarse and visible-light-microscope stages alongside (nano_vlm_stage). Interferometer feedback (FPS / PICOSCALE) is floor. | confirm |
|
SampleRotary |
RotaryStage |
XF:05IDD-ES:1{nKB:Smpl-Ax: |
Sample rotation for XRF-tomography (raster x rotation, the 63-xrftomo path). Axis and encoder pending (STAGE-1). | confirm |
|
Attenuators |
Filter |
XF:05IDD-ES{IO:4}DO: |
Pneumatic attenuator foils (attenuators, class SRXAttenuators), digital-output relays. | confirm |
|
SampleTemperature |
TemperatureController |
XF:05IDD-ES{LS:1-Chan: |
Sample-environment thermal control (temp_nanoKB, Lakeshore); binds the TemperatureController family. | confirm |