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  Richardson Lab Experimental Log, Page 3 of 9  Not logged in ELOG logo
Entry  Mon May 13 14:48:27 2024, Aiden, Update, VAC, New Vacuum Chamber Design VaccumChamberAssembly__Redesign_v5.jpg
I created a new model for the vacuum chamber based on the ideas from last week's meeting.

It should be noted that we can not have the zero length reducer and the gate valve on the same arm as they both have blind tapped holes. We need to decide if we want the gate valve or not as if we do, we will need to use the 3 inch long reducer.

Important Measurements:

From the back of the flange to the back of the RGA: 25.25 in

Height from bottom of the blank to the bottom of the chamber: 2.75 in

Entry  Mon May 13 13:03:41 2024, Tyler, Update, FLIR, Readout Code Updates AcquisitionImage(Jul-18-2023_15_24).jpg.png
[Tyler]

Some changes have been made to the FLIR readout code to help improve its functionality:

  • More accurate temperature readings than before due to updates in the calculation procedure. A bug was causing one of the parameters to not update correctly; this is now fixed.
  • Saved data now stored in HDF5 files rather than CSV.
  • User can now enable automatic data storage by specifying a collection interval (in minutes). The choice of manually saving data is still present if desired.
Below is an image of the graphical interface. This is an old screenshot. Visually, there is no difference between the older and newer version. The differences come from the list above, which help the user more reliably measure and store data for later analysis.

Entry  Tue May 7 20:34:31 2024, shane, Update, CDS, frosti MEDM screen update FROSTIMEDMMay7.2024.png
[Luis, Shane] Here is the updated MEDM screen, with new orientation and updated labeling to reflect the actual positions of the heater elements. Note that indices start at T0 to be consistent with simulink model, though in the previous elog for the FROSTI layout the heater elements are labeled 1-8. Also, we finally learned how to take a screenshot on debian.
Entry  Thu May 2 22:43:36 2024, Tyler, Update, Electronics, RTD Readout Chassis Redesign IMG_9013.jpg
[Tyler, Jon]

Today the FROSTI RTD readout chassis underwent a redesign:

Instead of the original ratiometric method, which involved wiring the FROSTI RTDs in series, each element is individually powered by separate excitations. Each element additionally possesses its own reference resistor of 100 Ohm. Now, if an RTD experiences an electrical short, it should not affect the measurements of the others in sequence, as it had with the original design.

Entry  Mon Apr 22 15:06:33 2024, Cynthia , Update, Interferometer Simulations, cavity scan update LIGO_4_22.pdf
[Cynthia,Pooyan] Completed some simulations injecting 0-10th order modes. Some graphs will be used for the poster after some further titles, axis, and range adjustments.
Entry  Wed Apr 17 15:07:04 2024, Shane, Update, Cleanroom, Cleanroom cleaning and particle count 
[Mohak, Luke, Luis, Shane, Cynthia, Michael, Xuesi]

cleaning cleanroom and particle count

    NOTE: particle counter was found dead, with the charging dock unplugged. For future reference, if you need to unplug the dock, please either plug it back in when you're done, or make a note in an elog so someone else can come down and charge it.

  • 1:07 pm: ran zero count test on particle counter
  • 1:26 pm: started particle count
    • zone 3:
      • 0.3 u:1787
      • 0.5 u:457
      • 1.0 u:41
    • zone 4: We were only able to charge the particle counter a small amount before starting the cleaning, so it died again halfway through this measurement, and we didn't get results for zone 4. In interest of time, we just put it on the charger and started the cleaning.
    • 1:49 pm: began surface check and wipedown, including softwalls
    • 2:16 pm: started vacuuming the floor
    • 2:24 pm: finished vacuuming the floor
    • 2:26 pm: started mopping the floor
    • 2:32 pm: finished mopping the floor
    • 2:32 pm: started cleaning the buckets
    • 2:35 pm: started mopping with IPA wipes
    • 2:43 pm: finished mopping with IPA wipes
    • 2:43 pm: changed sticky floor mats
    • 2:45 pm: started particle count
      • zone 3:
        • 0.3 u: 1288
        • 0.5 u: 124
        • 1.0 u: 0
      • zone 4:
        • 0.3 u: 415
        • 0.5 u: 290
        • 1.0 u: 0
Entry  Mon Apr 15 15:25:10 2024, Cynthia, Update, Interferometer Simulations, progress on simulation so far LIGO_update_week3_(2).pdf
 
Entry  Mon Apr 15 11:51:03 2024, Peter, Update, VLC Update, VLC VLC_Update_April_15_2024.pdf
An update on the VLC project is attached below:
Entry  Mon Apr 8 14:57:41 2024, Cynthia, Pooyan, Update, Interferometer Simulations, performed cavity scans for O4 O5, and coupled cavity  LIGO_update_week1.pdf
 
Entry  Mon Apr 8 14:43:29 2024, Pooyan, Update, Interferometer Simulations, SIS update single and coupled cavities IFOSim_SIS__update_4_8_24.pdfScreen_Recording_2024-03-31_at_2.46.29_AM.mov
[Pooyan, Cynthia]

Attached is a brief recap PDF file. A video file showing separate HOMs plots for the cavity scan with ETM08 surface map is also attached.

The codes are available at https://git.ligo.org/uc_riverside/hom-rh/-/tree/main/SIS

Entry  Sun Apr 7 13:42:51 2024, Michael, Update, Interferometer Simulations, Update on status of gtrace project Sequential_beam_trace_crab1.pngangle_of_incidence_yaml_example.png
[Pooyan, Michael]

After meeting and discussing the current state of our work with Prof. Fulda a few weeks ago, we have decided that the best next step for the gtrace project is its integration into finesse work. Our first step towards this integration involved creating a sequential beam trace in contrast to the previous non sequential gtrace simulations. A sequential beam trace not only allows for faster runtimes of the simulation (<1 second) but also allows for more direct reading of certain beam parameters (beam size, gouy phase, and angle of incidence). The sequential model was created alongside a yaml output which provides values of parameters, now including the angle of incidence on a mirror.

Last Monday, Pooyan gave a report to the Cosmic Explorer optical design team on the current state of our project and the ultimate goal of our work. During the same meeting another group working in the optical design team presented their own work with gtrace and optical design, focusing more on optimization of parameters based on desired beam sizes at each mirror. It might be a good idea to begin attempting to bring our individual projects together to allow for collaboration and further developments.

Currently, only the crab1 layout has a sequential trace model. Pooyan is currently working on creating a finesse model for crab1 to serve as a proof of concept for how gtrace could be integrated with finesse by providing useful values such as angles of incidence.

Entry  Wed Mar 27 00:03:57 2024, Pooyan, Update, Computers, Chimay relocation to Physics 1129 Chima_front.jpgChimay_back.jpg

[Jon, Pooyan]

Moved Chimay from the server rack in Physics 1119 to a new rack in Physics 1129. It is connected to the switch in that rack and has the same ip address as before.

All services are up and running.

It appears that JupyterHub creates some processes whenever a user connects to an instance of it, but in some cases does not stop those processes after the user is not using that instance. This results in having lots of running idle processes, each using a small bit of the resources. Those processes are killed now as a result of rebooting. It might be a good idea to manually restart JupyterHub (or the whole machine) every few months to avoid this.

Entry  Sun Mar 24 11:50:37 2024, Aiden, Update, Clean &amp; Bake, Cal Tech FROSTI Parts 
Bagged the FROSTI legs and feet after the conclusion of the clean and bake. They are double bagged and sitting in the flow bench.
Entry  Sun Mar 24 11:49:27 2024, Aiden, Update, General, FROSTI RGA Scan bake13_240324_FROSTI_ArC.pngbake13_240324_FROSTI_ArO.png
Took RGA data 1 day after the conclusion of Bake 13. Bake 13 ended on Saturday March 23, the RGA data shown was taken on Sunday March 24. The scan shows that the FROSTI is very clean with no outgassing. The HC levels are at 25 e-10. The pressure in the chamber was also a 1.64 e-8 Torr.
Entry  Tue Mar 19 15:22:27 2024, Aiden, Update, Clean &amp; Bake, FROSTI Legs Clean and Bake 
[Aiden, Luke]

Cleaned and baked the Cal Tech FROSTI legs and showed Luke the procedure on how to clean parts.

Entry  Tue Mar 19 10:55:30 2024, Tyler, Update, FLIR, In-Air Optical Test FroSTI_Thermal_Profile.png
Below is an image I took using the FLIR just before leaving for the LVK meeting. The profile is roughly what we would expect (annular). Any distortions seen are likely from the screen not being completely parallel to the plane of the FroSTI (i.e. the screen slightly bends in various locations). Next step: In-vacuum test at CIT.
Entry  Fri Mar 15 16:58:55 2024, Aiden, Update, VAC, Vacuum Chamber Frosti Testing bake12_240314_Empty_ArC.pngbake12_240314_Empty_ArO.png
[Luke, Luis, Aiden] On Thursday, March 14 - Took preliminary RGA scans of the empty chamber to compare later on. Vented the chamber and placed the FROSTI into the chamber. Plugged in the DB-25 connectors into the feed through port and checked the connection to make sure there were no shorts before closing the chamber and starting the pumps again. On Friday, March 15 - The pressure in the chamber has come down to 7 e-6 torr. It seems to be coming down much slower despite the little time the chamber was left open for. This may be due to the FROSTI being out on the table for so long and a bake may be needed to bring the pressure down to near UHV.
Entry  Wed Mar 6 09:57:52 2024, Tyler, Update, TCS, FROSTI Wiring 

Upon finishing the FROSTI assembly last week, we ran into some electrical issues. An electrical short was found between two of the d-sub pins (2 and 8). It appears that the pins were somehow coming into contact with the aluminum surrounding them. This was causing the power supply to trip. The issue was seemingly fixed by adjusting the positioning of the cabling leading out of the reflector. When handling the device in the future, please make sure to keep the wiring as undisturbed as possible. The setup is rather fragile, and moving the cabling around could potentially reintroduce a short like this.

Entry  Thu Feb 29 17:16:48 2024, Shane, Update, CDS, MEDM screen for FROSTI T/P readouts IMG_6259.jpeg
Here's the latest draft of the MEDM screen for the FROSTI temp and power readouts, now with a button linking to the c1msc file display. Size/color/label are all changeable, if adjustment is needed. Checked in execute mode as well, and it's working correctly. Also noticed that the MEDM file name has been changed to FROSTI.adl, which I'm noting here for future reference. Still in medm_sandbox directory.
Entry  Mon Feb 26 21:23:27 2024, Jon, Update, TCS, FROSTI Assembly - Day 1 7x
[Jon, Tyler, Luis, Luke, Mohak, Cynthia, Michael, Aiden]

FROSTI assembly began today. After a final set of RGA scans were taken, the vacuum chamber was vented and the reflectors were removed. The chamber was then resealed and pumped down again. 

Today we completed the installation of the Macor hardware and heater elements between the two reflector halves. Tomorrow we will route, bundle, and terminate the power and sensor cables. 

    Reply  Wed Feb 28 17:49:18 2024, Tyler, Update, TCS, FROSTI Assembly - Days 2-3 IMG_0947.pngIMG_0956.pngIMG_0957.pngIMG_0959.png
[Aiden, Jon, Luis, Luke, Michael, Tyler]

FROSTI assembly was completed today. The RTD and power wires were terminated at the DB-25 connectors and the legs were put on. It is currently placed in front of the stand-in test mass (~5 cm away). The FLIR has also been moved back to it's nominal position. As of now, it appears there are some shorts within the power cabling. This will be a focus of tomorrow's work.

Quote:
[Jon, Tyler, Luis, Luke, Mohak, Cynthia, Michael, Aiden]

FROSTI assembly began today. After a final set of RGA scans were taken, the vacuum chamber was vented and the reflectors were removed. The chamber was then resealed and pumped down again. 

Today we completed the installation of the Macor hardware and heater elements between the two reflector halves. Tomorrow we will route, bundle, and terminate the power and sensor cables. 

 

Entry  Wed Jan 17 15:47:49 2024, Aiden, Update, General, Resistors for Heater Elements 
Power Res (Ohm) RTD Res (Ohm)

Heater 1= 73.6; 81.8

Heater 2= 70.4; 82.1

Heater 3= 71; 84.5

Heater 4= 71.5; 80

Heater 5= 70.5; 81.7

Heater 6= 72; 79.4

Heater 7= 69.2; 78.2

Heater 8= 71.1; 84.2

    Reply  Wed Feb 28 12:02:08 2024, Tyler, Update, General, Resistors for Heater Elements Update 
Power Res (Ohm) RTD Res (Ohm)

Heater 1= 72.8; 80.6

Heater 2= 69.5; 80.8

Heater 3= 70; 83.2

Heater 4= 70.6; 78.7

Heater 5= 69.9; 80.6

Heater 6= 71.1; 78.2

Heater 7= 68.5; 76.8

Heater 8= 70.1; 82.8

Quote:
Power Res (Ohm) RTD Res (Ohm)

Heater 1= 73.6; 81.8

Heater 2= 70.4; 82.1

Heater 3= 71; 84.5

Heater 4= 71.5; 80

Heater 5= 70.5; 81.7

Heater 6= 72; 79.4

Heater 7= 69.2; 78.2

Heater 8= 71.1; 84.2

 

Entry  Tue Feb 27 09:06:29 2024, Cynthia , Update, Interferometer Simulations, cavity scan with higher order input laser ligoPre_2_27.pdf
I performed a few cavity scan with the inputing laser with a different mode (not pure 00). For each laser I included a graph for just plotting the order with highest power (for example 1st order laser input the first plot only scanned for 1st order in that cavity), and I have also included a graph scanning for order 1-10.
Entry  Tue Feb 27 03:26:28 2024, Michael, Update, Interferometer Simulations, Reverse aLIGO Layout Created in Gtrace reverse_aligo_desmos.JPGreverse_aligo_dxf.JPG
I've created the simulation for reverse aLIGO layout in gtrace. Attached are the desmos model and the output dxf file. From here Pooyan and I plan to create a brief report of our progress to the CE optical design group.
Entry  Mon Feb 26 15:15:39 2024, Aiden, Update, General, Vacuum Chamber Baking Update 
Started Bake 12 on Wednesday Feb. 21 and turned the bake off on Saturday Feb. 24. This was a normal low temp bake with the PID controllers set to 110 degC.
Entry  Sat Feb 24 08:53:38 2024, Jon, Infrastructure, Computers, Matlab upgraded to 2023b on Chimay 
I upgraded Matlab on chimay to the latest stable release, 2023b. From some quick tests, it appears to be in working order. Let me know of any issues.
Entry  Fri Feb 23 18:03:27 2024, Tyler, Update, FLIR, Optical Test Setup in Cleanroom IMG_0941.png
[Tyler, Xuesi]

The FLIR and test mass stand-in have been transferred into the cleanroom. A software test will be run as soon as we get an ethernet cable long enough to reach into the cleanroom where the camera is set up. Once this is finished, the FLIR will be moved aside for construction of the FROSTI! When completed, the camera will be placed back into position for in-air optical testing.

Entry  Fri Feb 23 15:01:48 2024, Shane, Update, CDS, Latest draft of MEDM screen for FROSTI readouts IMG_6128.jpg23.jpg
Here's the latest draft of the MEDM screen for the FrOSTI temp and power readouts. Also, debugged the text readout boxes so they're now correctly reading out the live temperature and power values.
Entry  Thu Feb 22 21:48:16 2024, Jon, Update, VAC, Vacuum vent for RGA testing of reflector IMG_0938.pngIMG_0939.png
[Jon, Tyler, Luke, Aiden]

Summary

Following Wednesday's cleanroom cleaning [333], we proceeded to vent the vacuum chamber, remove the heater elements and their mount structure, and install the FROSTI reflectors. The reflectors are the final components to undergo RGA testing before the FROSTI prototype can be assembled. After installing the reflectors, we pumped the chamber back down and initiated a 48-hour 125 C bake.

Vacuum Vent

At ~1:00 pm, we shut off power to all eight of the FROSTI heater elements. Prior to shutoff, all were operating in vacuum at roughly 300 C. We then waited approximately 30 minutes for the elements' temperatures to fall below 50 C.

At this point, we isolated the RGA volume from the main volume by closing both gate valves, leaving the RGA volume to continue to be pumped through the bypass line. We then backfilled the main volume via the needle valve connected to one of the 2.75" ports. Once the pressures had equalized, we removed the chamber lid via our usual procedure (requiring only a small amount of flathead-screwdriver prying) and extracted the heater element assembly.

Reflector Assembly

We then removed the FROSTI reflectors from their protective packaging (for the very first time) on the cleanroom tabletop. We tested the fit of the Macor and stainless steel hardware in the reflectors' tapped holes. The Macor standoffs and bolts appear to fit perfectly. However, the 1/4-20 tapped holes for joining the two reflector halves are too shallow by ~1/4". As a temporary fix, we used some on-hand stainless steel washers (which had already been cleaned and baked) to securely fasten the two halves together. In the final assembly we will replace these with slightly shorter 1/4-20 vented bolts.

Pumpdown and Bake

The two fastened reflector halves were placed inside the chamber, sitting on top of the two mounting legs (see attached photos). We then reinstalled the lid. In order to rough the main volume, we isolated the RGA volume from the pumpline (by closing the bypass line valve), shut down the pumps, and then backfilled the pumpline via the manual vent valve on the turbo pump.

Once the pressures had equalized, we opened the 6" gate valve separating the pumpline from the main volume and powered on the roughing pump. Once the main volume pressure fell below 0.5 Torr, we powered on the turbo pump as well. The main volume pressure reached 5e-6 Torr within ~30 minutes, consistent with previous experience, and was continuing to slowly fall.

Lastly, we initiated a 125 C bake-out of the entire system following our usual procedure. We plan to run this bake for 48 hours (i.e., through the end of the day Friday).

Entry  Wed Feb 21 23:15:07 2024, Michael, Update, Interferometer Simulations, Long Shoelaces 1 Layout Created in Gtrace and Fixed Ghosting in Beamsplitter long_shoelaces1_desmos.JPGAR_side_with_reflection.PNGAR_side_without_reflection.PNG
I have created the long shoelaces 1 layout for cosmic explorer using gtrace, a slight modification from the shoelaces 1 layout design. I also modified the simulation code slightly to remove ghosting effects in the beamsplitter. Originally the python code specified that the HR and AR sides of the beamsplitter both have the same transmission/reflection. I modified this to the ideal case of: Refl_AR = 0, Trans_AR = 1. I have attached two images below to show the before and after effect of this modification.
Entry  Wed Feb 21 11:58:30 2024, Shane, Update, Cleanroom, cleanroom cleaning and particle count 
[Luke, Shane, Tyler]

cleaning cleanroom and particle count

  • 11:50 am: ran zero count test on particle counter
  • 11:55 am: started particle count
    • zone 3:
      • 0.3 u: 1787
      • 0.5 u: 581
      • 1.0 u: 166
    • zone 4:
      • 0.3 u: 623
      • 0.5 u: 290
      • 1.0 u: 124
  • 12:17 pm: began surface check and wipedown, including softwalls
  • 12:25 pm: started vacuuming the floor
  • 12:36 pm: finished vacuuming the floor
  • 12:44 pm: started mopping the floor
  • 12:57 pm: finished mopping the floor
  • 12:58 pm: started cleaning the buckets
  • 12:59 pm: started mopping with IPA wipes
  • 1:05 pm: finished mopping with IPA wipes
  • 1:06 pm: changed sticky floor mats
  • 1:08 pm: started particle count
    • zone 3:
      • 0.3 u: 1621
      • 0.5 u: 581
      • 1.0 u: 332
    • zone 4:
      • 0.3 u: 1080
      • 0.5 u: 457
      • 1.0 u: 249
Entry  Tue Feb 20 18:08:24 2024, Aiden, Update, General, Degassing the RGA bake11_240220_Elements_postdegas_ArO.pngbake11_240220_Elements_predegas_ArO.png
I took an RGA measurement before and after degassing the RGA. Both data was taken with the Argon open. The pressure before taking data was 2.39 e-8 torr in the main volume. Note that the main chamber was fully valved off for the degas and the main chamber pressure quickly rose to e-6 torr. Further investigation of this rise should be done as this might be the main culprit for the leaking.
Entry  Tue Feb 20 11:31:49 2024, Tyler, Update, Cleanroom, Garment Cabinet Door Replacement image_67190529.JPGimage_67177473.JPG
[Luis, Luke, Pooyan, Tyler]

The replacement door for the HEPA garment cabinet arrived last week, and was installed on Thursday. However, it looks like there's a small gap between the door and where the hinge is attached to the cabinet frame. No screws were provided with the replacement door. If we want to perform any adjustments, we have to be very careful; the screws break very easily.

Entry  Mon Jan 15 22:29:34 2024, Jon, Infrastructure, General, Cabinet installation & lab clean-up completed 1129.png1119.png

[Jon, Tyler, Aiden, Shane, Pooyan, Michael, Cynthia, Luke]

On Wednesday, we completed long list of work towards making the new lab (1129) fully operational and enabling the next phase of FROSTI testing. 

Cabinet Installation

Three new VWR cabinets with sliding glass doors were installed in 1129. Each unit measures 48" (W) x 22" (D) x 84" (H) and sits along the back wall (see attachment 1). The 350-lb. cabinets were laid in place by Facilities on Monday and permanentized on Wednesday. Work included:

  • Earthquake anchoring to the masonry wall
  • Sliding glass doors leveled
  • Shelving installed
  • Wiping down of interior and exterior surfaces with IPA wipes

Server Rack Installation

A new Tripp Lite 42U open-frame rack was laid in place in 1129 and anchored to the floor (see attachment 1). This rack will house all of our general-purpose and simulation computers, which will be relocated from the 1119 rack at a later time.

Lab Clean-Up

Following installation of the new cabinets and rack, we proceeded to organize and clean both labs. Work included:

  • Moved parts and equipment into permanent storage in 1129 cabinets
  • Wiped down surfaces in 1119 and 1129 with polypropylene IPA wipes
  • HEPA-vacuumed floors of 1119 and 1129
  • Mopped floor in 1119 with Liquinox solution
  • Installed new sticky mats in 1119 and 1129
  • Regular cleanroom cleaning and particle counts (see 302)
  • Positioned new stainless steel gowning bench outside the cleanroom (see attachment 2)

At this point, the only piece of lab equipment still to be delivered is a HEPA garment cabinet for reusing our (semi-disposable) bunny suits. It is schedule to arrive in mid-February and will sit outside the cleanroom in 1119, in the former location of the HEPA flow bench.

    Reply  Tue Feb 20 08:01:30 2024, Jon, Infrastructure, General, Power and network equipment installed in 1129 rack IMG_0924.jpegIMG_0925.jpegIMG_0921.jpegIMG_0922.jpeg
[Jon, Tyler, Pooyan, Luis, Luke, Peter]

On Thursday we installed the power conditioning/distribution equipment and networking equipment in the new 1129 rack. The hardware is identical to the setup in the 1119 rack and includes:

  • Tripp Lite SU5KRT3UTF - 208V, 5kVA on-line UPS with 120V transformer
  • CyberPower PDU20M2F12R - metered power distribution unit, (14) NEMA 5-20R
  • Ubiquiti USW-Pro-48 - 48 port 10Gbps network switch

The UPS is connected to a 208V NEMA 6-30R outlet in the overhead cable tray, which is on the building's "standby" (backup power) circuit. An 8-ft L6-30 extension cord has been ordered to permanently run the power cable through the cable tray.

The network switch will be connected to a Cat6 cable that was recently run by ITS from the 1119 rack, allowing the lab's LAN to be extended into 1129. This Ethernet link remains to be tested.

Quote:

Server Rack Installation

A new Tripp Lite 42U open-frame rack was laid in place in 1129 and anchored to the floor (see attachment 1). This rack will house all of our general-purpose and simulation computers, which will be relocated from the 1119 rack at a later time.

Entry  Mon Feb 19 14:40:21 2024, Shane, Update, CDS, MEDM screen for FROSTI temp readouts IMG_6094.jpegIMG_6092.jpeg
Here's the latest draft of the MEDM screen for the FROSTI heating elements' temperature readouts. Note that the MEDM screen isn't actually this grainy, this just happens to be a photo of the lab monitor's screen off a phone.
Entry  Mon Feb 19 14:17:50 2024, Aiden, Update, VAC, Heater Element RGA Scan bake11_240219_Elements_ArO.png
Three days after the completion of Bake 11, the Heater elements RGA scan looks much cleaner. The HC level is back down to 33 e-10 torrl/s with the pressure at 2.13 e-8 torr. I could not take a= scan with the Argon closed as it was left open during the bake and not closed since then.
Entry  Fri Feb 16 18:37:28 2024, Jon, Update, VAC, Bake ended 6:23 pm 

I ended the bake of the UHV system (that began on Monday) at 6:23 pm today by switching OFF both PID controllers. The heaters elements were run at max power (24 V DC / 200 mA per element) during this bake, and I left them powered at the same level.

At the time, the instrument readings were as follows:

  • Left high-limit controller: 138 C
  • Right high-limit controller: 128 C
  • Left PID controller: 100 C
  • Right PID controller: 100 C
  • Main volume pressure: 8.17e-7 Torr
  • RGA volume pressure: 4.63e-7 Torr
Entry  Tue Feb 13 13:02:41 2024, Pooyan, Update, Interferometer Simulations, Cacity sacn of Fabry-Perot  IFOSim_update_2_13_24.pdf
Created a simple model of Fabry-Perot cavity in SIS, and did a cavity scan. Total power in the cavity, 00 mode, and HOMs is measured.
Entry  Tue Feb 13 12:34:04 2024, Aiden, Update, VAC, VAC Heating System Update bake10_240118_Elements_ArO.png
Here is an overlay with for all the heating steps done with the heater elements.
Entry  Tue Feb 13 12:26:23 2024, Tyler, Update, Interferometer Simulations, BS Code Update thickness1.pdfbs_opd_homloss_h6cm_w2cm.pdf

I reproduced Cao's CE beamsplitter code (see below for example plots). I received the current info on the beamsplitter parameters for A+ and A# from GariLynn also. The next steps are to perform a similar power loss analysis on the anticipated A# beamsplitter.

Entry  Tue Feb 13 11:54:45 2024, Tyler, Configuration, FLIR, In-Air Optical Test Configuration In-air_optical_test_sketch.png

Below is the proposed schematic for FROSTI optical testing, chosen so enough space is allotted for prototype assembly.

Steps to be taken include:

  1. Reconstruct FLIR staging apparatus
  2. Move test mass stand-in to cleanroom
  3. Mark FLIR camera position on cleanroom optical table at correct distance
  4. Run ethernet cable into cleanroom
  5. Move FLIR aside to allow for more assembly space
  6. Upon assembly completion, reposition FLIR onto optical table again

Tentative plan is to begin setup early next week.

Entry  Tue Feb 13 04:05:32 2024, Michael, Update, Interferometer Simulations, Shoelaces 1 Layout Simulated in GTrace shoelaces1_dxf.JPGshoelaces1_desmos.JPG
I've worked on and have completed a first simulation of Cosmic Explorer's Shoelaces 1 layout. This is based off of Pooyan's original work with Gtrace much like the Long Crab 1 layout I worked on last week. This layout will allow me to quickly created the alternate shoelaces layouts. I've included an image of the dxf, and a desmos model for reference.
Entry  Tue Feb 13 01:26:30 2024, Peter, Update, Interferometer Simulations, CARM Power Simulations Scenario_3_CARM.pdfScenario_3_CARM_Gouy.pdf
Cao's simulations of the circulating power and gouy phase through a single arm cavity of the interferometer have been reproduced. Images of the plots can be shown in the pdfs attached. There are approx. 400 lines in this code (scenario_3_carm) that produces these plots. This code also calls on a separate code source file (thermal_models) that defines many of the functions used in this main simulation. The thermal_models file consists of over 1000 lines. More work needs to be done to fully understand and document the scripts.
Entry  Mon Feb 12 17:35:47 2024, Aiden, Update, VAC, Heater Element RGA Scan bake10_240212_Elements_ArO.pngbake10_240212_Elements_ArC.pngbake10_240212_Elements_300C_ArC.png
Took more RGA data before and after increasing the heater elements to 300 degC and before heating them up.

Started Bake 11 as well to hopefully prevent any hydrocarbons from getting captured by the room temperature walls of the chamber. The PID controllers were set to 100C.
Entry  Thu Feb 8 17:37:48 2024, Aiden, Update, VAC, Heater Element RGA Scan bake10_240208_Elements_ArO.pngbake10_240208_Elements_ArC.png
Took more RGA data now that the heaters are powered by 18V. The pressure of the system during the data taking was 3.8 e-8 torr. The RGA scans seem to have gotten worse as well with this power increase.
Entry  Wed Feb 7 12:43:22 2024, shane, Update, Cleanroom, cleanroom particle counts (full 5 zone measurement) 24.png
Here's today's full 5 zone measurement of the cleanroom. Everything is back under the requirement.
Entry  Tue Feb 6 22:40:25 2024, Michael, Update, Scripts/Programs, Long Crab 1 Design Created In Gtrace Long_Crab1.pnglong_crab_1_desmos.PNG
Worked on and completed the python code for the simulation of the Long Crab 1 layout for Cosmic Explorer basing off of Pooyan's original work with the Crab 1 layout. From here I'll look into creating the shoelaces layouts.
Entry  Mon Feb 5 14:17:52 2024, Aiden, Update, VAC, Heater Element RGA Scan bake10_240205_Elements_ArO.pngbake10_240205_Elements_ArC.png
Here are the new RGA scans for the powered Heater elements. The pressure at the time of taking data was 2.88 e-8 torr. The HC levels are at 40 e-10 torrl/s which is not bad but still higher than the lowest we have recorded.
Entry  Fri Feb 2 19:18:24 2024, shane, Update, Cleanroom, cleanroom cleaning and particle count 
[Aiden, Shane, Luis, Luke]

cleaning cleanroom and particle count

  • 5:10 pm: ran zero count test on particle counter
  • 5:14 pm: started particle count

    NOTE: initial counts are significantly above allowed limit. ~10 times larger than ISO class 5 standard in the smallest size range. Realized partway through ceiling tile changes that the power/lights for some of the hepa fans in the ceiling frame had been turned off. May explain this high number. Have since turned fans back back on.

    • zone 3:
      • 0.3 u: 109208
      • 0.5 u: 16337
      • 1.0 u: 581
    • zone 4:
      • 0.3 u: 51340
      • 0.5 u: 9228
      • 1.0 u: 581
  • 5:33 pm: started replacing ceiling tiles
  • 6:25 pm: began surface check and wipedown, including softwalls
  • 6:33 pm: started vacuuming the floor
  • 6:45 pm: finished vacuuming the floor
  • 6:45 pm: started mopping the floor
  • 6:50 pm: finished mopping the floor
  • 6:52 pm: started cleaning the buckets
  • 6:53 pm: started mopping with IPA wipes
  • 6:58 pm: finished mopping with IPA wipes
  • 6:59 pm: changed sticky floor mats
  • 7:00 pm: started particle count
    • zone 3:
      • 0.3 u: 5404
      • 0.5 u: 1413
      • 1.0 u: 41
    • zone 4:
      • 0.3 u: 1704
      • 0.5 u: 332
      • 1.0 u: 166
Entry  Fri Feb 2 19:08:20 2024, Aiden, Update, VAC, 1st Hot Element RGA Scan bake10_240202_Elements_ArC.pngbake10_240202_Elements_ArO.png
Here are the measurements for the RGA scan of the elements while on at around 160C. The pressure of the chamber during the test was 4.12 e-8 torr.
Entry  Fri Feb 2 16:56:56 2024, Jon, Update, CDS, RTS model implemented for FROSTI RTD readouts sitemap_screen.png

Summary

Today I finished implementing an RTS model to read out the integrated FROSTI RTDs (temperature sensors) via the CyMAC. The model is named "MSC" and is located at cymac:/opt/rtcds/usercode/models/c1msc.mdl. We successfully tested it with the heater elements operating in vacuum at low power (12 VDC), finding them to reach an average steady-state temperature of 160 C.

From the cymac host, the MEDM control screen can be accessed with the terminal command "sitemap" (from any directory).

Measurement Technique

Each FROSTI heater element [299] contains an internal two-wire RTD placed near the front emitting surface, which enables the temperature of the blackbody emitter to be directly monitored. From the measured temperature and the emissivity of the uncoated aluminum nitride surface (known to be ~1 in the IR), the radiated source-plane power can also be estimated.

The resistance of each RTD is measured via a ratiometric technique. The RTDs are powered in series with a 1 kΩ reference resistor located inside the readout chassis [305], whose temperature is not changing. The signal is obtained by taking the ratio of the voltage difference across each individual RTD to the voltage difference across the reference resisitor. The advantage of this technique is that the ratio of  the voltage differences is insensitive to changes in the current through the resistors (since they are all in series; see [271] for wiring diagram).

Implementation Detail

The signal flow is shown in Attachment 1. The eight RTD signals enter through ADC channels 0-7, along with the reference resistor signal on channel 8. The first set of filter modules apply a calibration gain to convert the signals from raw ADU counts to units of input-referred voltage. The ratio of each RTD signal to the reference resistor signal is then taken. The second set of filter modules multiply the voltage-difference ratios by the resistance of the reference resistor, 1 kΩ ± 0.01%, to obtain the RTD resistances in physical units of ohms.

Finally, a freeform math module is used to invert the quadratic relation between each RTD's resistance and temperature. The final signals passed to the third set of filter modules are the RTD temperatures in physical units of degrees C. The temperatures of the tungsten RTDs are estimated assuming TCR coefficients of A=0.0030 C-1 (±10%) and B=1.003E-6 C-2, which were provided by the manufacturer.

One DAC channel is used to provide the excitation voltage for the RTD measurement, which is visible on the far right of the control screen. At its maximum output voltage of +10 V, the DAC can drive a maximum current of 10 mA.

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