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Possible spectrometers

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Presentation on theme: "Possible spectrometers"— Presentation transcript:

1 Possible spectrometers
Bent Bragg (after P. Siddons-NSLS) Mosaic crystal Bent Laue Zhong Zhong-NSLS X-ray Grating P. Heimann-ALS, S. Hulbert-NSLS

2 Bent Bragg Spectrometer
Strip detector (200 strips) 76 mm surface normal Si (422) 2 mm Cu foil R=3.9 m

3 SPPS Cu near edge - Si (422) dispersive analyzer

4 Cu near edge structure (for reference)

5 Bent Bragg Spectrometer
Strip detector (200 strips) 76 mm surface normal Si (422) 2 mm R=3.9 m

6 Adjust crystal asymmetry so that
the Si (422) reflection width is Δθ/200 Corresponding to 200 resolution elements

7 Reflectivity Angle (microradians)
Asymmetric Si (422) FWHM: 100 microrad 8000eV For reference θB=45; E=7908 eV ΔE/E = 1 x 10-4 Reflectivity 100 microrad Angle (microradians)

8 Und-pinhole distance 200 m Pinhole 2.0 x 0.02 mm2
Photon energy (keV) On axis +0.5 mm +1.0 mm

9 Bent Bragg to do list Simulation considering position dependent spectrum Role of jitter Test K sensitivity with simulated data (including noise)

10 Mosaic crystal spectrometer
180-2θ 2 x Mosaic spread

11 For PG (002) Δθ=0.3 deg

12 How far away is the detector?
Divide the angular spread into 100 elements, 2Δθ / 100 = 1.0x10-4 For a 2 mm beam 20m

13 Andreas Freund, Anneli Munkholm, Sean Brennan,
SPIE, 2856,68 (1996) 24 keV 10 keV

14 Mosaic crystal to do list
Crystal uniformity ? Ultimate resolution ? Experimental geometry (20 m crystal to detector distance)

15 Grating spectrometer Phil Heimann RSI, 76, (2005)

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