Plan to replace solar cell with lens + photodiode
Powerpoint with initial version of hardware design: CBP_large_lens_calibration_system.pptx
Should the focused beam fit on a photodiode?
Theoretical answer: Yes, comfortably. d = 2*w0 = M^2 * k(A, D) * lambda * f/D, where k is ideally 1.27, usually between 1.5 and 2, M is the beam quality, which should be pretty high, f=700 mm, D = 260 mm
So for lambda = 1 um, d = 5.38 um
Then the power through an aperture P(r, z = 0) = P0 (1 - exp(-2r^2/w0^2)), if want P/P0 = 0.999, then r/w0 = sqrt(-1/2 ln(.001)) = 1.86, and P/P0 = 0.0001 has r/w0 = 2.145. This beam diameter is still under 15 um, so it very easily fits within the diameter of the photodiode.
Chromatic aberration
We want to calculate chromatic and spherical aberration
We have K9 glass, according to http://www.ygofg.com/products/Colorless_Filter_Glass/119.htm,
| wavelength (µm) | index of refraction (n) |
| 0.4047 | 1.530 |
| 0.4800 | 1.523 |
| 0.5461 | 1.519 |
| 0.6328 | 1.515 |
| 0.8521 | 1.510 |
| 1.0600 | 1.507 |
| 1.5300 | 1.501 |
| 1.9700 | 1.495 |
| 2.3250 | 1.489 |
Note, if we assume f = 700 mm at 546 nm, this means at 405 nm f = 685 mm and at 1.5 um f = 726 mm.
Calculated the expected aperture diameter needed to capture a percentage of beam power as a function of wavelength, assuming the focal plane of the sensor is set at 700 mm. Calculations here: Chromatic Aberration.ipynb
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This is somewhat concerning...
spherical aberration: I think this is less of an issue with a plano-convex lens, but we may have to measure it. CWS estimates it's about 1mm of image blur
How about this as a sensor: 
around $1000 from Digikey. We'd have to measure its QE relative to NIST diode. Also now that I think about it we will want a temperature sensor on it as well, and measure QE vs. temperature at red edge of response curve. He's the claimed response curve :
(0.5 A/W at 600 nm is 100% QE)
Notes from meeting on 6/9/2023 with Chris and Chuck
- biggest concern for whether the spot fits on the photodiode is chromatic aberration for a spherical lens
- build access panel/hatch instead of having a tube connector
- lens covers should be metal and they should be actuated
- whole assembly should go on the TMA, either at the top of they pylons or by the primary mirror
- should use black rubber coverings or honeycomb aluminum instead of sheet metal rings
- need to design an adapter from cylinder to rail for the lens holder (cylindrical to rectangular)
- consider using 3-4 aluminum rings to stabilize the tube
- for mounting the lens
- use 3 100 mil teflon pads as inserts
- at same location drill 1/4" through holes in radial direction
- squeeze RTV through those holes
- use CTE of glass, RTV, and aluminum to determine the appropriate size of the gap to make everything athermal
- machine aluminum clips to dimension of known gap from CTV calculation
- For the logic timer - if we need to switch out the Keithley 6514 for the 6517B we can
- check timings - see if that's a viable option
- could make new CSC if necessary - figure out if it is