ligo-ex ligo-ds
  Richardson Lab Experimental Log, Page 2 of 10  Not logged in ELOG logo
New entries since:Wed Dec 31 16:00:00 1969
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  423   Mon Aug 12 16:35:30 2024 Luke Update Ringheater modeling Update
Attachment 1: HR_surface_deformation.png
HR_surface_deformation.png
Attachment 2: Irradiation_pattern_input.png
Irradiation_pattern_input.png
Attachment 3: HR_surface_deformation_other.png
HR_surface_deformation_other.png
  422   Mon Aug 12 16:24:34 2024 TylerUpdateCleanroomRIN Measurement Update 1
[Tyler]

For some preliminary tests, I moved the IR photodetectors outside of the cleanroom and onto the other optical table. The basic goal was to obtain a signal from both photodetectors. To achieve this, one of the heater cartridges used for early FLIR measurements months ago was hooked up to a power supply (PS). The PS was set to supply 0.20 A with a voltage of 2.8 V; the corresponding power is thus 0.56 W. With this, I was able to measure a signal using the Red Pitaya, the device that will be used for following RIN measurements.

Quote:
[Tyler]

I have begun moving parts into the cleanroom for the upcoming FROSTI RIN tests that will be conducted within the next few weeks. While waiting for the rest of the equipment to arrive to perform the full-scale tests, I have additionally moved the FROSTI under the shelf above the optical table, where it will stay for the meantime. As always, please use caution when in the cleanroom. Aside from the FROSTI, the IR photodetectors that will be used for the test are delicate and costly to replace.

 

Attachment 1: Basic_setup.jpg
Basic_setup.jpg
Attachment 2: RP.jpg
RP.jpg
  421   Tue Aug 6 13:07:07 2024 XuejunUpdateInterferometer Simulations 
[Xuejun]

The width and location of the measured in-air change in temperature profile has been determined to be 0.045m and 0.137m respectively. Subsequently, a fake irradiance profile was able to be generated that best resembled what the actual irradiance profile could be using this information for testing in COMSOL. The generated irradiance profile that output the most similar change in temperature profile as the measured in-air profile has been included as well as the change in temperature profile it produced on the blackbody screen "test mass" model in COMSOL.

Attachment 1: Thermal_model_image.png
Thermal_model_image.png
Attachment 2: generated_irradiance_profile.png
generated_irradiance_profile.png
  Draft   Sun Aug 4 09:01:01 2024 MichaelUpdateInterferometer SimulationsUpdate on SRC Mode Mismatch Analysis
An update on my analysis to minimize mode mismatch/scattering by introducing toroidal mirrors to the SRC.
Attachment 1: SRC_Mode_Mismatch_Update_8_2_24.pdf
SRC_Mode_Mismatch_Update_8_2_24.pdf
Attachment 2: SRC_Mode_Mismatch_Update_8-12-24.pdf
SRC_Mode_Mismatch_Update_8-12-24.pdf
  419   Fri Aug 2 13:50:22 2024 ShaneUpdateCDSSerial Comm. Test (Agilent Turbo Pump)
Did a brief communication test with the agilent turbo pump today, to see if we could get serial communications up and running for it. Used a simplified python script with sockets package to establish a connection and send a simple command to query the pump's operational status. The connection was successful, and had no issues establishing. The command also sent successfully, and received a response. The response didn't make sense, though, as all the possible statuses correspond to integers 0-7, and this test returned the integer 15. Need to troubleshoot some more to figure out why it's returning nonsense values. Possible match-up issue with the way the information is being encoded on each end? At the very least, connection and command sending are both working fine, and this showed that the pin-out connections we were assuming (image attached) are correct for basic connection to work.
Attachment 1: pinouts.jpeg
pinouts.jpeg
  418   Tue Jul 30 07:42:47 2024 JonInfrastructureGeneralCable tray installed in 1119
Yesterday I installed another 5' cable tray in 1119, for permanently routing Ethernet lines to the L-bench. It is securely bolted to the top of the electronics rack, on one end, and to the top of the glass-door storage cabinet, on the other. This eliminates the need for the cable ramp which previously sat behind the rack.
Attachment 1: cable_tray_1119.jpg
cable_tray_1119.jpg
  417   Mon Jul 29 14:30:16 2024 TylerUpdateCleanroomRIN Measurement Set-up
[Tyler]

I have begun moving parts into the cleanroom for the upcoming FROSTI RIN tests that will be conducted within the next few weeks. While waiting for the rest of the equipment to arrive to perform the full-scale tests, I have additionally moved the FROSTI under the shelf above the optical table, where it will stay for the meantime. As always, please use caution when in the cleanroom. Aside from the FROSTI, the IR photodetectors that will be used for the test are delicate and costly to replace.

Attachment 1: RIN_FROSTI.jpg
RIN_FROSTI.jpg
  416   Mon Jul 29 13:39:16 2024 TylerUpdateDAQRTD Parameter Calibration
[Tyler]

Using the data taken during the FROSTI testing at Caltech, I attempted to find a better calibration of the RTD sensors, given our past issues with inaccurate readings. The fit parameters, alpha and beta, are still all different from the initial values given to us by Fralock (alpha = .003, beta = 1.003e-6, R_0 was not given), but the true values will differ based on factors such as part geometry.

Quote:
Refitted RTD calibration, neglecting quadratic term:

       R_0 (ohm)   Alpha (1/C)

RTD 0   79.3962   0.002031

RTD 1   78.2874   0.002530

RTD 2   80.9775   0.002381

RTD 3   74.2947   0.003684

RTD 4   80.3199   0.002157

RTD 5   78.2106   0.002297

RTD 6   76.6825   0.002438

RTD 7   82.6645   0.002458


Measurements taken can be found here. An uncertainty of 1 C was assumed for temperature.

Quote:
[Jon,Tyler]

We noticed that the RTD temperature readings given on the Cymac were off, and traced the issue to miscalibration in the relationship between the resistance and temperature of each RTD (Callendar-Van Dusen eqn). Below is the table of values inferred from independent measurements of temperature and resistance to rectify this problem. This data was then fitted to better determine the coefficients present in the temperature-resistance relation:

       R_0 (ohm)   Alpha    Beta

RTD 0   80.8674   0.001315   4.273e-6

RTD 1   79.5704   0.001887   3.7873e-6

RTD 2   81.7334   0.002014   2.1724e-6

RTD 3   74.3060   0.003677   3.6022e-8

RTD 4   81.1350   0.001761   2.3598e-6

RTD 5   77.9610   0.002423   -7.5192e-7

RTD 6   78.7980   0.001373   6.2909e-6

RTD 7   83.8616   0.001890   3.3529e-6

 

 

Attachment 1: RTD_Recal_params.png
RTD_Recal_params.png
Attachment 2: RTD_recal_plots_fin.png
RTD_recal_plots_fin.png
  415   Mon Jul 29 12:23:10 2024 LiuUpdateInterferometer SimulationsUpdate on mechanical resonances of CE BS with stiffener ring
Update on mechanical resonances of CE BS with stiffener ring is attached.
Attachment 1: eigen_freqs_merged.pdf
eigen_freqs_merged.pdf
  414   Mon Jul 29 12:20:56 2024 LiuUpdateInterferometer SimulationsUpdate on wavefront actuation with astigmatically driven RH for CE
Update on wavefront actuation with astigmatically driven RH for CE is attached.
Attachment 1: SURF_nonastig_merged.pdf
SURF_nonastig_merged.pdf
  413   Mon Jul 29 12:18:52 2024 LiuUpdateInterferometer SimulationsUpdate on FROSTI O5 ETM profile optimization
Update on FROSTI O5 ETM profile optimization is attached.
Attachment 1: pdf_merged.pdf
pdf_merged.pdf
  412   Fri Jul 26 17:25:42 2024 JonInfrastructureComputersNew workstation ws4 installed in 1129

Today I installed the second desktop workstation in 1129. The new machine is an Intel NUC13ANHi5, with a 12-Core Intel i5-1340P CPU, 32GB DDR4 RAM, and a 1TB SSD.

I loaded it with a fresh installation of Debian 12 and installed the LIGO CDS workstation (control room) tools. It is assigned the hostname ws4 and and the static IP address 192.168.1.19 on the local lab network. Like the other CDS workstations, there is just one user account accessible with the usual credentials.

The machine is fully set up and ready for use.

Attachment 1: ws4.jpg
ws4.jpg
  411   Mon Jul 22 18:19:34 2024 LukeUpdateVACZero length reducer stuck bolts

Today, I borrowed a bolt extractor drill bit from the machine shop to remove some stuck bolts from the zlr. Before starting, I laid down a sheet of aluminum foil on the work table and wiped down all the tools I was going to use. I began by drilling a small pilot hole and then enlarged it with a 5/32 drill bit. However, when I attempted to use the bolt extractor, it didn't grip the bolt effectively. Our bolts were too seized, causing the extractor bit to repeatedly slip instead of gaining traction.

Attachment 1: image_2024-07-22_181607501.png
image_2024-07-22_181607501.png
Attachment 2: image_2024-07-22_181632965.png
image_2024-07-22_181632965.png
  410   Tue Jul 16 18:43:07 2024 ShaneUpdateCDSADC-DAC loopback testing and IOLAN installation
UPDATE: Follow up ADC-DAC loopback testing now complete, matching all the ADC channels to a single DAC channel, and then matching all the DAC channels to a single ADC channel (see attached xlsx file or access directly here). Also note c1msc model file has been updated to include the second set of 16 ADC channels. The newly added channels also have their own filter modules, but those are not needed for anything other than the loop-back testing and can now be deleted if we don't want to keep them.

Quote:
[Shane, Jon]

Finished ADC-DAC loopback testing today (see attached xlsx file or access directly here). All looks well with the first 8 channels, with the gain hovering just under 2. Also edited c1msc model in simulink to add channels 7-15 (the last 8 channels), and changed the rate back to 64K. See image 1 for the updated c1msc model. The last 8 channels are also looking good and show no problems, with slightly more scattering for the gain, but all values very close to 2.

We also installed the new eight-channel Perle IOLAN SDS8 terminal server today. Image attached.

NOTE: When we were installing it, we noticed an energized wire dangling from the 24V power supply. Has since been fixed and put back into place.

 

Attachment 1: Follow-up_ADC-DAC_Loopback_Testing.xlsx
  409   Mon Jul 15 15:52:40 2024 MichaelUpdateInterferometer SimulationsaLIGO locking with varying SRC mirrors and measuring mode mismatch
Attachment 1: SRC_Astigmatism_Analysis_7_15_24.pdf
SRC_Astigmatism_Analysis_7_15_24.pdf
  408   Mon Jul 15 15:44:52 2024 Cynthia UpdateInterferometer Simulationsperformed cavity scans with thermal effects and ring heater
Attachment 1: cavity_scan_07_15.pdf
cavity_scan_07_15.pdf
  407   Mon Jul 15 14:49:06 2024 PooyanUpdateComputersSynology NAS server setup

Installed a Synology NAS server (Synology RackStation RS1221) in lab room 1129, with host name “scribe” and ip “192.168.1.17”. It is mounted on the rack and each of its 8 storage bays has a 2TB SSD disk. It will be used to set up automated backups of all the lab machines (e.g., chimay, logrus, megatron).

One shared storage is set on it with SHR-2 as its RAID type. It can tolerate the failure of two disks and has 10.4TB of total capacity. 

We can use both rsync and dd to create backups of the system. A suggested backup schedule could be daily rsync backups and bi-weekly disk snapshots using dd. 

 

  406   Mon Jul 15 14:28:32 2024 PooyanUpdateInterferometer SimulationsaLIGO test mass surface profiles

Created a Google Slides presentation to summarize all the mirror surface map information that we use for simulating interferometers. 

A+ expected maps are based on correspondence with G. Billingsley. The estimate for the A+ ITMs will be to take the “as polished” data and add coating non-uniformity to it. (T2000398) Neither of these are scaled for the precise thickness of the Ti:Ge coatings.

Google Slides link: https://docs.google.com/presentation/d/1ge-ciAiEdNyyTvSShYdZz2JpACFRY2W3JDpxHRqMnOQ/edit?usp=sharing

 

 

 

  405   Mon Jul 15 13:30:49 2024 Luke UpdateVACProblem with 2.75" to 1.33" zero length reducer
Last Friday while checking the depth of the ZLR I got one of the screws stuck. Today I tried a couple things to get it out. First I tried a few different pliers to be able to grip lower on the screw this didn't work. So I switched to the other method of drilling a small hole to see if maybe the threads would pull away from the walls of the hole a bit. This kind of worked as seen in the picture below I was able to remove most of the screw but there is a bit still stuck which I was not able to remove and I didn't want to use a larger bit for fear of damaging the tapped hole.
Attachment 1: IMG_1882.jpg
IMG_1882.jpg
  404   Mon Jul 15 09:36:44 2024 LiuUpdateInterferometer SimulationsETM Profile Optimization for FROSTI

This is to optimize the FROSTI heating profile for ETM, by minimizing the residual RMSE of the HR surface deformation after the beam size weighted curvature is removed by the current RH. The parameters of the profile being explored are the location, width, and total power for the Gaussian Annulus. As shown in the attached series of plots, the optimal location is 9.9 cm, with a width of 7.7 cm, and a total FROSTI power of 12.7 W (for 1 W of Gaussian beam absorption). The residual RMSE is 1.2 nm. About 0.5% of the FROSTI power is lost at the edges of the TM.

For comparison, without FROSTI, the residual RMSE after the beam size weighted curvature removed by the current RH is 44.5 nm. When the width of the Annulus is set to be 3 cm however, the residual RMS is 3.1 nm, with much smaller FROSTI power needed at 4.7 W, and less power loss at 0.02%.

Attachment 1: pdf_merged.pdf
pdf_merged.pdf
  403   Sat Jul 13 15:09:04 2024 LukeUpdateGeneralRing heater COMSL model update

After the feedback from last meeting and Liu's help narrowing down what I should do to improve the model. I made some changes: First with Liu's help I made the proportions of the test mass and ring heater much more reasonable and parametrized by constants. Second from Cao's paper "FROSTI Nonimaging Reflector Design" Liu showed me what I should do to define the elliptical mirrors. Third during Friday's modeling/programming meeting walked me through getting the different irradiance plots to work. 

Attachment 1: image_2024-07-13_150654436.png
image_2024-07-13_150654436.png
Attachment 2: image_2024-07-13_150704735.png
image_2024-07-13_150704735.png
Attachment 3: image_2024-07-13_150716079.png
image_2024-07-13_150716079.png
Attachment 4: image_2024-07-13_150726593.png
image_2024-07-13_150726593.png
  402   Thu Jul 11 21:01:37 2024 JonInfrastructureGeneralCable tray installed in 1129
Today I installed a 10' cable tray in 1129, for permanently routing Ethernet lines to the workstations. It is securely bolted to C-channels in the side wall and in the center cable tray.
Attachment 1: IMG_1395.png
IMG_1395.png
Attachment 2: IMG_1396.png
IMG_1396.png
  401   Thu Jul 11 15:53:39 2024 LukeUpdateVACRGA line upgrade

[ Luke, Jon ]

Started work at 11:00

As mentioned in my previous post the RGA was not clearing the table because of a tilt in the cross. So I removed the 90 deg elbow, loosened the bolt securing the Tee to the ZLR, and removed the cross from the gate valve. I then spun around the Tee on the bottom so that the cal leak would be pointing in the right direction and connected the rotating 2.75" flange of the cross to the gate valve. I then added the small turbo pump to the top of the cross. 

Then with the help of Dr. Richardson, we made some adjustments to how the Tee was oriented with respect to the cross and how the cross was with respect to the table. So that the cal leak and RGA would fit on the table. After that we made some changes to the bolting of the ZLR to reducing cross replacing the 2.00" bolts and nuts with 1.75" bolts and nut plates. We did face some difficulty with half of the 2.00" bolts which required a bit of torque to get them out. 

Finished work at 2:20 

 

Things to do:

Before we start pumping down the system again Dr. Richardson wanted two other changes to be made. To replace the 2.75" to 1.33" conical reducer with a zero length reducer. He also wants the bolts that hold the main turbo pump to be replaced with nut plates. 

I plan on starting this work on Friday (7/12) before pumping down over the weekend

Attachment 1: image_2024-07-11_154630323.png
image_2024-07-11_154630323.png
Attachment 2: image_2024-07-11_154818191.png
image_2024-07-11_154818191.png
Attachment 3: image_2024-07-11_154902840.png
image_2024-07-11_154902840.png
  400   Wed Jul 10 17:31:07 2024 LukeUpdateVACRGA line disassembly and upgrade

[ Luke, Cynthia, Michael, Xuesi, Anthony ]

Started work around 12:45

We vented the chamber first and once it reached atmospheric pressure we started taking apart the RGA line.

We removed the parts in this order: Calibrated leak, RGA, Pressure gauge, 2.75" Blank on Tee, 2.75" Tee, all 1.33" Blanks on the cube, 4.5" feed through port, and finally the cube. Everything went smoothly after every part was taken off we covered the ends in Aluminum foil to maintain cleanliness. 

We then started the assembly of the new line. The parts were added in this order: Reducing cross, ZLR, Tee, Cal leak, RGA, 90 deg Elbow, and Pressure sensor.

We left off the Turbo pump as of now because we weren't able to find a 1" post not in use and we didn't want to put too much weight on the cross. We also noticed that the RGA might not fit on its probes because of a slight tilt to the cross and by extension the Tee. If this ends up being a problem we might need to remove all the parts connected to the cross so that we can reposition it so that the 2.75" rotating flange is connected to the gate valve.

Ended work around 4:00

Attachment 1: image_2024-07-10_172112210.png
image_2024-07-10_172112210.png
Attachment 2: image_2024-07-10_172431863.png
image_2024-07-10_172431863.png
Attachment 3: image_2024-07-10_172603090.png
image_2024-07-10_172603090.png
Attachment 4: image_2024-07-10_172823966.png
image_2024-07-10_172823966.png
  399   Tue Jul 9 18:19:50 2024 ShaneUpdateCDSADC-DAC loopback testing and IOLAN installation
[Shane, Jon]

Finished ADC-DAC loopback testing today (see attached xlsx file or access directly here). All looks well with the first 8 channels, with the gain hovering just under 2. Also edited c1msc model in simulink to add channels 7-15 (the last 8 channels), and changed the rate back to 64K. See image 1 for the updated c1msc model. The last 8 channels are also looking good and show no problems, with slightly more scattering for the gain, but all values very close to 2.

We also installed the new eight-channel Perle IOLAN SDS8 terminal server today. Image attached.

NOTE: When we were installing it, we noticed an energized wire dangling from the 24V power supply. Has since been fixed and put back into place.

Attachment 1: iolanServerTerminal.jpeg
iolanServerTerminal.jpeg
Attachment 2: ADC-DAC_Loopback_Testing.xlsx
Attachment 3: updatedc1msc.jpeg
updatedc1msc.jpeg
  398   Mon Jul 8 17:01:45 2024 ShaneUpdateCDSNew CyMAC internal layout
[Jon, Shane] Internal layout of CyMAC has been updated (labeled image attached) to accommodate the replacement of the two ribbon cables. Looking down on the chassis from the front, and going from left to right, the new placement is as follows: BIO card, DAC adapter board, ADC adapter board, DAC card, ADC card. NOTE: As part of ADC-DAC loopback testing, we're disconnecting from the FROSTI readout chassis and using the cables to connect directly from ADC input channels to DAC output channels . Initial testing confirmed functionalility of all 32 ADC input channels and the first 8 DAC output channels.
Attachment 1: updated_cymac.jpeg
updated_cymac.jpeg
  397   Mon Jul 8 12:26:10 2024 MichaelUpdateInterferometer SimulationsMinimizing Astigmatic Effects in the SRC of LIGO
This is the first look and analysis of the effects of astigmatism in the aLIGO optical layout which can lead to mode mismatch and therefore increased losses into higher order modes. Specifically I am currently looking at measuring the effect of changing the radii of curvature of the SRC mirrors https://docs.google.com/presentation/d/1qhIehqyNukg4g8S2fqfQZz83yr9aB76tEa6fn2J-TrM/edit?usp=sharing
  396   Mon Jul 8 10:39:14 2024 XuejunUpdateFLIRAverage Temperature Profile

After taking data for each of the individual heater elements, I imported them into python and overlayed them to produce an average temperature profile. I rotated the 7 of the elements to align with element 1's profile and averaged them out. By setting the range to 28C - 33C (this gave the best visibility of the heating pattern) it gave the profile attached.

Attachment 1: Average-Temperature-Profile.pdf
Average-Temperature-Profile.pdf
  395   Fri Jul 5 14:23:13 2024 LiuUpdateInterferometer SimulationsEngineering drawings for straight edge heater element designs for FROSTI
Step files and engineering drawings for the straight edge heater element designs have been created in COMSOL and SolidWorks. They are available in the group Git Repo. With those, we will initiate a discussion with the ceramics supplier for an estimate of the feasibility and benefits of the straight edge element over the curved element in terms of manufacturing cost and time.
  394   Fri Jul 5 14:12:32 2024 LiuUpdateInterferometer SimulationsCE BS Mechanical Resonances
The butterfly and drumhead mechanical modes for the aLIGO BS were calculated in COMSOL. The resonant frequencies for the two acoustic modes are 2.45 kHz and 3.61 kHz, matching the results in reference for instance.

For a quick projection for the resonant frequencies going from aLIGO to CE, the height and width of the BS are increased assuming the mass is increased from 14 kg to 70 kg, while keeping the aspect ratio fixed. The resonant frequencies for the two mechanical modes as a result becomes smaller, to 1.43 kHz and 2.11 kHz respectively, risking getting in the detection band.

Next step is to implement a mechanical ring with high stiffness outside the BS barrel to combat the decrement of the resonant frequencies of the relevant mechanical modes.

Attachment 1: butterfly.png
butterfly.png
Attachment 2: drumhead.png
drumhead.png
  393   Fri Jul 5 13:17:44 2024 LiuUpdateInterferometer SimulationsFour-quadrant FROSTI-like RH for astigmatic thermal actuation for CE optics
In the CE corner layout design and down selection study, interferometer layouts with large incidence angles on some of the curved optics are being considered, such as the folding mirrors in the "long crab". This however generates astigmatic beams upon reflection and results in mode mismatches in coupled cavities that need to be mitigated. Astigmatic thermal actuation for the optics involved is thus essential. One way we are considering is to implement a FROSTI-like barrel RH that delivers different irradiance for the four quadrants. This post summarizes primitive results on the astigmatic thermal actuation for the HR surface by powering the heater elements from one diagonal differently compared to the other.

For this study, we looked at a simple case with an aLIGO-like test mass geometry (R=0.17m, H=0.2m) plus a barrel RH with 0.02m width at 0.03m from the AR surface with FEniCSx. The irradiance profiles are constant inside the width along the longitudinal direction, and zero outside the width. For the baseline non-astigmatic actuation with constant irradiance azimuthally. We have obtained roughly equal quadratic actuations along the x and y directions, as shown in figure. The total delivered power on the entire barrel is normalized to 1 W. The actuation on the curvature per power Delta S/Delta P in this non-astigmatic case thus is 0.835 uD/W.

For the astigmatic case however, the irradiance for the regions from one diagonal is increased by a given amount, compared to the non-astigmatic case, whereas for the other diagonal regions is decreased by the same amount (thus the total power is unchanged at 1 W). The HR deformation when the power is changed by 50%, for instance, is shown in picture, where the deformation along the x direction is larger than the y direction. The deformation in each direction however remains quadratic, with different curvature per powers for the x and y components, as shown in plot. The actuation on the curvature per power for an increasing amount of astigmatism is shown in plot. In terms of Zernike polynomials, the maximum amount of Z22 (astigmatism) for 1 W of total power is 2um while the remaining curvature content (Z20) is 6nm. This is shown in plot.

Attachment 1: SURF_05.png
SURF_05.png
Attachment 2: SURF_xy.pdf
SURF_xy.pdf
Attachment 3: SURF_dsdp_converge.pdf
SURF_dsdp_converge.pdf
Attachment 4: SURF_dsdp_astigs.pdf
SURF_dsdp_astigs.pdf
Attachment 5: overlaps_zers.pdf
overlaps_zers.pdf
Attachment 6: SURF_xy_nonastig.pdf
SURF_xy_nonastig.pdf
Attachment 7: SURF_xy_nonastig.pdf
SURF_xy_nonastig.pdf
  392   Mon Jul 1 15:19:42 2024 Cynthia UpdateInterferometer SimulationsO4 and O5 mirror cavity scans with thermal effect
Attachment 1: cavityScan_07_01.pdf
cavityScan_07_01.pdf
  391   Mon Jul 1 11:45:45 2024 SidUpdateInterferometer Simulations 
Progress update: Most of last week was spent getting set up with SIS, and learning how to do basic simulations. The goal for this week is to begin reproducing the methodology from T2000338. I have begun with studying perturbations to mirror curvature and position in a simple FP cavity, but thus far have been unable to get the same results.
  390   Fri Jun 28 18:15:16 2024 LukeUpdateVACVacuum chamber

We will be configuring the RGA line to remove the spherical cube from the system. Currently our plan for the new design is to connect a 4.5" to 2.75" Reducing Cross to the gate valve on the vacuum system. It will be orientated vertically with the turbo pump on top coming off the end will be a 90 deg elbow. On the bottom there will be a 4.5" to 2.75" Zero length reducer attached to that will be a Tee on one side the pressure sensor and the other the RGA. Connected to the elbow will be the calibrated leak. 

The only parts not readily available are the ZLR and the 2.75" gaskets

Part name Count needed Status/comment
2.75" Tee 1 In use in current RGA line
4.5" to 2.75" Reducing Cross 1 Needs to be clean and baked
4.5" to 2.75" Zero length reducer 1 To be purchased  
2.75" 90 deg elbow 1 Clean needs to be removed from another part
5/16 - 24 X 2.00" Bolts and nuts 16

8 in clean room and plenty in storage they will need to be clean and baked. Plenty of nuts in clean room.

1/4 - 28 X 1.25" Bolts and nutplates 24 12 in use in RGA line and 12 in storage that will need to be clean and baked. Sufficient nutplates in clean room
1/4 - 28 X 7/8" Bolts  12 Plenty of bolts in clean room
2.75" Copper Gasket   6 5 gaskets in clean room and none in storage. So some will need to be purchased
4.5" Copper Gasket 2 About 10 in clean room 
  389   Fri Jun 28 10:43:13 2024 XuejunUpdateCleanroomFrosti
[Xuejun, Tyler]

We moved Frosti into the cleanroom and debugged it to make sure everything was working. One of the DB25 pins broke off at the connector for element 1 so it needed to be recrimped. Element 6 short circuited but fixed with adjustment to the heater power pin position. We connected the power and sensor connectors to the power box and recalibrated the RTD sensors.

Attachment 1: frosti.jpg
frosti.jpg
Attachment 2: chassis.jpg
chassis.jpg
  388   Thu Jun 27 13:42:02 2024 ShaneUpdateCleanroomcleanroom 5 zone particle count measurement
Here's today's 5 zone measurement of the cleanroom. We're above the limit by a bit in zone three (all three size ranges), likely as a result of the recent work installing FROSTI, so it could probably use another focused cleaning. Everything else is below the limit.
Attachment 1: 24.png
24.png
  387   Thu Jun 27 11:09:14 2024 LiuUpdateScripts/ProgramsStraight edge STEP files and ray loss analysis

Drawings and CAD models of the straight-edge designs are exported, and are visualized in SOLIDWORKS. Two are attached. One is a single edge of the evenly spaced polygon design with 16 edges, and the other is the 8x2 design, with two neighboring edges grouped together to replace the original single curved heater.

For the straight edge design in COMSOL, ray power detectors were placed at the heater's front surface. The irradiance is shown in figure. The amount of light rays deposited back to the heater is small when close to the center, where it is closer to the original ring. The ray power increases as we move further away from the center toward the edges. In addition, the total power integrated at the heater's front surfaces is about 21% of the original heater's emitted power. This could account for the power efficiency difference between the straight edge design and the ring design, as shown in plot for instance.

Attachment 1: edge_CAD_8x2_step.PNG
edge_CAD_8x2_step.PNG
Attachment 2: edge_CAD_step.PNG
edge_CAD_step.PNG
Attachment 3: Irradiance_frontheater.png
Irradiance_frontheater.png
Attachment 4: Irradiance_profile.pdf
Irradiance_profile.pdf
  386   Wed Jun 26 16:39:34 2024 LukeUpdateVACVacuum chamber leak checking
On Tuesday I had isolated the main volume and let it pump down over-night. Today, Wednesday, I checked it and it had only gone down by a small amount compared to when I left it on Tuesday. I then proceeded to tighten down the bolts attaching the tubo-pump to the zero-length reducer while it was under vacuum. This caused the pressure to drop down a few orders of magnitude.
Attachment 1: image_2024-06-26_162539705.png
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Attachment 2: image_2024-06-26_162601616.png
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  385   Wed Jun 26 15:33:41 2024 JonInfrastructureComputersNew workstation ws3 in 1129

Set-up of the first CDS workstation for 1129, ws3, is complete and the machine is ready for use. The login credentials are the same as the other lab machines.

All that now remains is to install a permanent cable tray for running the new Ethernet cables between the electronics rack and bench (they are currently dangling from the suspended lights).

Quote:
I have repurposed a spare Intel NUC to serve as the first of two planned workstations in 1129. Today I set it up with a fresh installation of Debian 12.5, assigned it the static IP address 192.168.1.15, and installed the LIGO CDS workstation packages. It is assigned the host name ws3. Temporarily, the mouse is borrowed from ws1 in 1119. We need to order another mouse as well as a 25-ft Ethernet cable for connecting the workstation to the 1129 switch, via the ceiling.

Attachment 1: IMG_1368.jpg
IMG_1368.jpg
  384   Tue Jun 25 17:19:42 2024 LukeUpdateVACVacuum chamber leak checking
Currently our main leak is in the RGA line. We found this by closing the gate valve from the main volume to see if which side was leaking more. After identifying this we are pumping down the main volume to see how low it can go the third attachment was taken at 4:16 6/25/24. Pumping started around 3:15. We have not been able to find exactly which flange is leaking, but our guess is on the small blanks and where the cube attaches to the gate valve as seen in the second attachment. We will try a few more things and if the leak is not found/fixed we are planning on changing the configuration of the RGA line to remove the spherical cube, which we believe to be the problem. See fourth attachment for rough sketch of initial idea. We have all of the parts required and they are clean and double bagged in 1129. I have not yet made all the measurements to confirm that this design is feasible.
Attachment 1: image_2024-06-25_170036021.png
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Attachment 2: image_2024-06-25_170057738.png
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Attachment 3: image_2024-06-25_170120030.png
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Attachment 4: image_2024-06-25_171238788.png
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  383   Tue Jun 25 12:34:18 2024 ShaneUpdateCleanroomcleanroom cleaning and particle count
[Luke, Shane, Xuejun, Mohak, Michael, Tyler, Cynthia]

cleaning cleanroom and particle count

  • 10:45 am: ran zero count test on particle counter
  • 11:02 am: started particle count
    • zone 3:
      • 0.3 u: 3284
      • 0.5 u: 1247
      • 1.0 u:332
    • zone 4:
      • 0.3 u: 1829
      • 0.5 u: 581
      • 1.0 u: 207
  • 11:15 am: began hepavac of rest of lab
  • 11:19 am: began surface check and wipedown, including softwalls
  • 11:32 am: finished hepavac of rest of lab
  • 11:35 am: started vacuuming the cleanroom floor
  • 11:45 am: finished vacuuming the floor
  • 11:47 am: started mopping the floor
  • 11:55 am: finished mopping the floor
  • 11:56 am: started cleaning the buckets
  • 11:57 am: started mopping with IPA wipes
  • 12:02 pm: finished mopping with IPA wipes
  • 12:03 pm: changed sticky floor mats
  • 12:04 pm: started particle count
    • zone 3:
      • 0.3 u: 3117
      • 0.5 u: 374
      • 1.0 u: 124
    • zone 4:
      • 0.3 u: 4531
      • 0.5 u: 540
      • 1.0 u: 0
  382   Mon Jun 24 21:38:25 2024 PooyanInfrastructureComputersComputer server changes in 1119 and 1129

[Jon, Pooyan, Tyler]

 

A few computer machine changes have been made. 

 

  • Logrus moved from 1119 to 1129. It is up and running with the same IP address as before. 
  • A new Windows machine (host name: spica, IP:192.168.1.14) is installed in the 1119 server rack. It is connected to the RGA scanner with the serial port and is specifically used for that purpose. 
    • Update: The machine was off on 6/25, although it was left on 6/24. We think that it might have been because of Windows' default setting to suspend/hibernate the machine after idleness. To resolve this, I used  "powercfg /change" command to set all the following parameters equal to zero. The machine is still running on 6/26. 

    monitor-timeout-ac
    monitor-timeout-dc
    disk-timeout-ac
    disk-timeout-dc
    standby-timeout-ac
    standby-timeout-dc
    hibernate-timeout-ac
    hibernate-timeout-dc
  • A new Debian machine (hostname: megatron, IP:192.168.1.16) is installed in the 1129 server rack. This machine is intended to be used for FEA/simulation work. A new 2TB WD Green SSD is used as its main disk drive. 

     At the moment, “controls” is the only user, and there are no apps/libraries installed on the machine.

    • Update: Jon installed LIGO cds-workstation tools and MiniConda on 6/26. 
    • Update: Pooyan and Liu set the following conda environments:
      • Env named “finesse” with Python 3.12.3 and Finesse version 3.0a24 installed. Finesse was installed via the source code. The subdirectory “/home/controls/packages” is used to store the package sourcecodes.
      • Env named “fenicsx” with the same version of Python and Finesse as the previous env, with the latest version of FEniCSx (0.8) and the test-mass-thermal-state installed.  
Attachment 1: IMG_6889.jpg
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Attachment 2: IMG_6890.jpg
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  381   Mon Jun 24 14:28:51 2024 Cynthia UpdateInterferometer SimulationsSIS cavity with thermal effect
tried to run a cavity scan with thermal deformation and ring heater for ITM04 ETM08 (aLIGO mirrors). Not sure about the accuracy of the graph as there is some commands that still need to verified.
Attachment 1: ETM08thermal.png
ETM08thermal.png
  380   Fri Jun 21 11:47:30 2024 LiuUpdateScripts/ProgramsCOMSOL simulation on alternative straightened heater elements design

In the previous post, we saw that for the heater element design with straight edges in replacement of the current eight-element ring-like design, it provides the similar Gaussian-like irradiance profiles, but with smaller power delivery efficiencies, as shown in the plot. This turned out to result in similar but less prominent thermal effects.

They only differ from the original baseline design by a source power rescaling, however, as shown in the plot, where we see the power-rescaled irradiance profiles for the straight edge designs are close to that for the ring design. The resulting temperature profiles and thermal distortions are shown in plot and plot. The thermal effects for the 16 straight-edge design with renormalized source power for instance are strikingly similar to that for the original ring design.

An alternative straightened heater element design has also been investigated with COMSOL FEA simulation. As shown in the attached, in this new design each heater element component is cut with multiple straight edges but remains connected, shown in the same colors (green and red). In the example, four straight edges are cut from each of the four heater components (4x4=16 edges in total). There is no spacing between the neighboring edges from the same element component, but the edges from different components are separated by 2mm, as can be seen in the attached. This new N-in-one straight edge design offers similar irradiance compared to that for the evenly-spaced N-sided regular polygon straight edge design with the same number of edges, as shown in the plot. It however has fewer heater components, four in this case, which makes it easier to implement in assembly and wiring, and less vulnerable to electrical and thermal shorts with their fewer heater element pins.

Attachment 1: rayIllu_side_new.png
rayIllu_side_new.png
Attachment 2: rayIllu_full_new.png
rayIllu_full_new.png
Attachment 3: Irradiance_profile.pdf
Irradiance_profile.pdf
Attachment 4: Irradiance_profile_norm.pdf
Irradiance_profile_norm.pdf
Attachment 5: temp_profile.pdf
temp_profile.pdf
Attachment 6: thermal_distortions.pdf
thermal_distortions.pdf
  379   Thu Jun 20 18:01:11 2024 JonInfrastructureComputersNew workstation ws3 in 1129
I have repurposed a spare Intel NUC to serve as the first of two planned workstations in 1129. Today I set it up with a fresh installation of Debian 12.5, assigned it the static IP address 192.168.1.15, and installed the LIGO CDS workstation packages. It is assigned the host name ws3. Temporarily, the mouse is borrowed from ws1 in 1119. We need to order another mouse as well as a 25-ft Ethernet cable for connecting the workstation to the 1129 switch, via the ceiling.
  378   Wed Jun 19 18:45:14 2024 LukeUpdate Vacuum chamber reassembly
[Luke, Aiden, Mohak , Tyler] On Tuesday we had the silver screws for the spherical cube shortened by a quarter of an inch so that they would fit into the gate valve. We then attached the spherical cube to the vacuum chamber. On Wednesday we finished assembling the RGA line and the main turbo pump.
Attachment 1: image_2024-06-19_182556383.png
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Attachment 2: image_2024-06-19_182631737.png
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Attachment 3: IMG_1710.jpg
IMG_1710.jpg
  377   Mon Jun 17 11:47:46 2024 LiuInfrastructureGeneralTemporary cooling units for the labs
Below are the temporary cooling units installed last week in labs 1119 and 1129. They are the temp. replacement for the building AC system, which will be shut down during the Physics roof replacement.
Attachment 1: 1119.jpg
1119.jpg
Attachment 2: 1129.jpg
1129.jpg
  376   Fri Jun 14 13:32:13 2024 LiuUpdateScripts/ProgramsCOMSOL simulation on rectangular heater elements design

I have been looking at the feasibility of an alternative heater element design for FROSTI that replaces the original ring-like heater elements with n rectangular elements with straight edges. They form an n-sided regular polygon that could well approximate the original annular ring if n is large enough. This eliminates curved surfaces requirement for the heater elements, which was the source of the many month production delay for the prototype parts.

This design was implemented in COMSOL, shown in the attached. From the face on view, each element has a trapezoid shape with straight edges. The edges between neighboring elements are parallel, with a space of 2 mm in between them.

The ray tracing and thermal analysis obtained from COMSOL are shown in the attached pdf.

In particular, the 2D irradiance profiles were obtained from the ray tracing (so far from the front heating surfaces only). The 1D radial profiles were integrated and shown in the attached. The power delivery efficiency for the original ring-like heater element design is integrated to be roughly 65%, for comparison. The plot also shows the radial irradiance profiles for three different straight-edge designs, which correspond to 16 edges, 18 edges, and 24 edges. We see that with the straight-edge designs, the irradiance profiles stay in a good Gaussian shape. In addition, with a larger number of edges, the power efficiency increases, but is always less than the case for the optimized ring-like design.

The thermal distortions for the TM were also obtained from COMSOL, using the irradiance profiles at the TM HR. As shown in the attached, with the straight-edge design, the effects on the thermal lens OPD and the HR surface deformation are similar to the ring design, but with less severe edge roll-off for instance.

Attachment 1: rayIllu_full.png
rayIllu_full.png
Attachment 2: rayIllu_side.png
rayIllu_side.png
Attachment 3: rayIllu_zoom.png
rayIllu_zoom.png
Attachment 4: thermal_distortions.png
thermal_distortions.png
Attachment 5: results.pdf
results.pdf
Attachment 6: Irradiance_profile.png
Irradiance_profile.png
  375   Mon Jun 10 14:52:38 2024 TylerUpdateFLIRCIT FROSTI Analysis Update
[Tyler]

Upon further inspection, one adjustment was made to the FROSTI profile analysis: changing the transmission value of the ZnSe viewport. It was initially assumed that the viewport possessed an AR coating, which would bring the transmission into the 90% range. Without the coating, it drops to roughly 70%. Assuming no coating, the estimated delivered power was calculated to be 11.7 W. This is consistent with the estimated power given from the Hartmann sensor analysis, thus it is believed that the viewport indeed had no coating.

Quote:
[Tyler]

Attached below are the initial results of the CIT FROSTI testing analysis.

 

Attachment 1: FROSTI_HR_Temperature_Difference-7.png
FROSTI_HR_Temperature_Difference-7.png
  374   Mon Jun 3 14:59:44 2024 CynthiaUpdateInterferometer SimulationsCreated cavity scan with LG modes
Attachment 1: ligo_update_6_3.pdf
ligo_update_6_3.pdf
ELOG V3.1.3-7933898