| ID |
Date |
Author |
Status |
Type |
Category |
Location |
Title |
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41
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Wed Jun 12 12:07:11 2019 |
Loïc Amoudry | Fixed | report | mechanics | lasers and optics | Other | Amplifier mission Bordeaux |
M² mesuré à 10W.
M²x = 1.17
M²y = 1.14
| Loïc Amoudry wrote: |
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Voyage Bordeaux au CELIA avec Jérôme LHERMITE (Loïc et Titoutan)
1er jour (34°) :
Mesure du spectre et de la puissance des 4 diodes de pompe 3ème étage jusqu’à ~60W (12A).
Mécanique et câblage ampli.
2ème jour (30°) :
Soudure des fibres des diodes de pompe 3ème étage avec les fibres du recirculateur.
Câblage entre les 2 boitiers et fixation des fibres dans le boitier du 3ème étage.
3ème jour (26°) :
Connexion refroidissement à eau du recirculateur (chiller).
Soudure fibre CFBG avant 1er étage (temporaire pour faire des mesure).
Mise en place des éléments 1er et 2ème étage sur le support de l’ampli.
Montée en puissance 35W.
4ème jour :
Adaptation du mode de sortie en contrôlant la position de la fibre avant le collimateur.
Mesure de M².
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| Attachment 1: Ampli_ThomX.PNG
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| Attachment 2: M2_ThomX.png
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40
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Tue Jun 11 18:03:10 2019 |
Loïc Amoudry | Fixed | report | mechanics | lasers and optics | Other | Amplifier mission Bordeaux |
Voyage Bordeaux au CELIA avec Jérôme LHERMITE (Loïc et Titoutan)
1er jour (34°) :
Mesure du spectre et de la puissance des 4 diodes de pompe 3ème étage jusqu’à ~60W (12A).
Mécanique et câblage ampli.
2ème jour (30°) :
Soudure des fibres des diodes de pompe 3ème étage avec les fibres du recirculateur.
Câblage entre les 2 boitiers et fixation des fibres dans le boitier du 3ème étage.
3ème jour (26°) :
Connexion refroidissement à eau du recirculateur (chiller).
Soudure fibre CFBG avant 1er étage (temporaire pour faire des mesure).
Mise en place des éléments 1er et 2ème étage sur le support de l’ampli.
Montée en puissance 35W.
4ème jour :
Adaptation du mode de sortie en contrôlant la position de la fibre avant le collimateur.
Mesure de M².
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| Attachment 1: 1st_and_2nd_stage.jpg
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| Attachment 2: 3rd_stage_pumps.jpg
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| Attachment 3: 3rd_stage_signal.jpg
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39
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Thu May 23 17:30:03 2019 |
Loïc Amoudry | Fixed | report | lasers and optics | Optical room | Transmission of Sapphire mirror |
See image. |
| Attachment 1: Sapphire_transmission.PNG
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38
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Thu May 23 10:10:56 2019 |
Ronic Chiche | Fixed | report | lasers and optics | Optical room | Finesse measurement by decay time technique |
5 Files attached:
- Note on the technique and results for the present cavity on 2019, May 21th : F ~ 18 000
- 2Tektronix scope raw data
- 2 matlab files to fit the scope raw data and extract the Finesse |
| Attachment 1: 2019-05-21_-_Finesse_measurement_by_decay_time_technique.docx
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| Attachment 2: tek0005CH1.isf
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| Attachment 3: tek0006CH1.isf
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| Attachment 4: plotdata.m
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clear
clc
global datacut tcut Trt
[h,data]=myisfread('tek0005CH1.isf');
dt=h.Xincr;
Nt=h.Npoints;
t=0:dt:(Nt-1)*dt;
t=t';
% offset removing
offset=mean(data(0.9*Nt:Nt));
data=data-offset;
% magnitude calculation
datamax=mean(data(1:0.1*Nt));
% cuting data to remove constant part at the beginning of the signal
% and where log(data) becomes complex (signal close to zero is sometime negative)
id1=find(data<0.967*datamax);
id2=find(imag(log(data))~=0);
tcut=t(id1(1):id2(1)-1);
datacut=data(id1(1):id2(1)-1);
%fit
L=9;
c=3e8;
Trt=L/c;
rho=1-1.5e-4;
k=1-15e-4;
pc0=0.14;
t0=2e-3;
x0=[rho k pc0 t0];
options = optimset('Display','iter','PlotFcns',@optimplotfval,'TolX',1e-7,'TolFun',1e-7);
x=fminsearch('myerror',x0,options);
rho=x(1);
k=x(2);
pc0=x(3);
t0=x(4);
datafit=pc0/(rho-k)^2*((1-k)*rho.^((tcut-t0)/Trt)-(1-rho)*k.^((tcut-t0)/Trt)).^2;
%%
figure(1)
clf
plot(t*1e3,data)
grid on
xlabel('Time (ms)')
ylabel('Transmited power (A.U)')
figure(2)
clf
plot(tcut*1e3,log(datacut))
hold on
plot(tcut*1e3,log(datafit),'.')
grid on
xlabel('Time (ms)')
ylabel('Log(Transmited power) (A.U)')
legend('data','fit')
Tpin=Trt/2/abs(log(k));
Tcav=Trt/2/abs(log(rho));
F=2*pi*Tcav/Trt;
disp(['Finesse : ' num2str(F)])
disp(['Cavity decay time : ' num2str(Tcav*1e6) ' µs'])
disp(['Pin sw decay time : ' num2str(Tpin*1e6) ' µs'])
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| Attachment 5: myerror.m
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function [ output ] = myerror( x )
%MYERROR Summary of this function goes here
% Detailed explanation goes here
global tcut datacut Trt
rho=x(1);
k=x(2);
pc0=x(3);
t0=x(4);
mydata=pc0/(rho-k)^2*((1-k)*rho.^((tcut-t0)/Trt)-(1-rho)*k.^((tcut-t0)/Trt)).^2;
output=sum((mydata-datacut).^2);
end
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37
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Tue May 21 17:49:30 2019 |
Loïc Amoudry | Fixed | report | lasers and optics | Optical room | Finesse after cleaning (new suprasil mirror) |
15/05/19-20/05/19:
Cleaning of the mirrors:
Initial finesse 14000 @air
S2 with isopropanol, finesse 17000 @air
P4 with isopropanol, finesse 17000 @air
S3 with isopropanol, finesse 17000 @air
S3 with first contact, finesse 17000 @air
S2 with first contact, finesse 17000 @air |
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36
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Tue May 21 17:44:46 2019 |
Loïc Amoudry | Fixed | report | lasers and optics | Optical room | New Suprasil mirror from LMA |
14/05/19:
New Suprasil mirror received. It will replace the S-BOX suprasil mirror on ThomX which was already replacing the sapphire mirror.
First finesse measurement: 14000
Features sent by Christophe Michel:
"- Transmission mesurée (1064 nm)= 172 ppm ; Transmission estimée (1031 nm)= 140 ppm
- Réflexion (1064 nm)= 1025 ppm; doit être inférieure à 1031 nm
L'AR n'est pas bon alors que l'on obtenu 170 ppm pour le run de calage!
J'espère que vous pourrez néanmoins l'utiliser.
- Diffusion moyenne sur diamètre 12 mm: 2.6 ppm"
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35
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Thu Apr 18 16:17:53 2019 |
Loïc Amoudry | Fixed | issue | lasers and optics | Optical room | 33MHz Onefive power overtime decrease |
Power of the 33MHz Onfive decreases over time. Have to pay attention to that.
Note that air dryers have never been stopped.
10th april 2018: ~40mW (first picture, 10dB filter)
25th september 2018: ~36mW (second picture, 10dB filter)
16th april 2019: ~29mW (third picture, no filter)
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| Attachment 1: 180410_power_33mhz_1jours.PNG
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| Attachment 2: 180925_Power.JPG
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| Attachment 3: 190416_power_ouput_Onefive.PNG
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34
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Thu Apr 18 16:07:23 2019 |
Loïc Amoudry | Fixed | info | lasers and optics | Optical room | Injection of 33MHz Onefive through fiber |
Output power of the Onefive, and power after injection and different components have been measured.
Coupling ~= 90%
Each of our two EOM roughly have the same loses ~3dB |
| Attachment 1: power_ouput_Onefive.PNG
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| Attachment 2: power_after_injection_and_point9dB_blue_fiber.PNG
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| Attachment 3: power_after_halfwaveplate_and_injection_and_point9dB_blue_fiber.PNG
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| Attachment 4: power_after_halfwaveplate_and_injection_and_point9dB_blue_fiber_and_EOM_NIR-MPX-LN-0dot1.PNG
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| Attachment 5: power_after_halfwaveplate_and_injection_and_point9dB_blue_fiber_and_EOM_NIR-MPX-LN-02.PNG
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33
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Wed Apr 10 13:11:46 2019 |
Loïc Amoudry | Fixed | report | lasers and optics | Optical room | Mirror's cleaning and finesse |
Summary of what have been cleaned the last week:
P1 with isopropanol, finesse 11000
P4 with isopropanol, finesse 13000
S2 with isopropanol, finesse 13000
S3 with isopropanol, finesse 14000
S2 with isopropanol, finesse 14000
P4 with isopropanol, finesse 12500
P4 with isopropanol, finesse 12500
Finesse decreased with last steps which probably means our cleaning technique is at its maximum. We will probably try a cavity axis change with the mirror's motors to increase the finesse to the maximum like that.
Next step is to clean P1 with acetone + pur ethanol, then install the Onefive. |
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32
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Mon Apr 8 11:55:40 2019 |
Loïc Amoudry | Fixed | report | lasers and optics | Optical room | P4 cleaned and finesse measurement |
P4 cleaned with isopropanol.
Finesse measured afterward: ~=13 000 (clear increase) |
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31
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Mon Apr 8 10:18:31 2019 |
Loïc Amoudry | Fixed | report | lasers and optics | Optical room | Finesse after 2days |
Finesse measured this morning after P1 SUPRASIL being into the cavity for two days. In order to check if it's getting dirty.
Finesse still ~= 11 000 |
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30
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Fri Apr 5 11:28:39 2019 |
Loïc Amoudry | Fixed | report | lasers and optics | Optical room | Finesse with P1 SUPRASIL |
P1 SUPRASIL has been installed instead of P1 Sapphire. It has been cleaned 3 times on each face with wipe+isopropanol before to be installed.
Finesse ~= 10 000 - 11 000 (EOM Sweep of 100 kHz in 10sec, see last image.)
Coupling ~= 45%
Motors position:
P1 = -825 000
S2 = +825 000
S3 = +825 000
P4 = -825 000 |
| Attachment 1: 190404_mode_size_with_P1_SUPRASIL.PNG
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| Attachment 2: 190404_mode_fit_with_P1_SUPRASIL.PNG
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| Attachment 3: tek00000.png
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| Attachment 4: tek00002.png
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29
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Fri Apr 5 11:18:47 2019 |
Loïc Amoudry | Fixed | report | lasers and optics | Optical room | Transmission of the mirrors |
P1 transmission out of the mount (means angle of the mirror is not the real angle):
Pin = 3.2 mW
Pout = 545 nW
Offset = 68 nW
Transmission = (545-68)/3.2e6 = 149 ppm
| Loïc Amoudry wrote: |
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After verification, transmission of P1 correspond to ~150ppm.
The 1337ppm come from a beam leakage. Reflection from P1 goes to the input window which reflects again a part of the beam directly into the cavity between P1 and S3 then between P4 and S2.
| Loïc Amoudry wrote: |
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We openned the cavity, removed S2 and measured trans of P1 and same for S2.
Pin ~= 3.91 mW
PS2 ~= 20 nW --> ~~ 5 ppm !!!
PP1 ~= 5.23 uW --> ~~ 1337 ppm !?!?!
P1 is the Sapphire mirror. 3mm thick. Tomorrow we'll measure its trans again, being out of the mount for constraint issues.
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28
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Thu Apr 4 09:42:12 2019 |
Loïc Amoudry | Fixed | report | lasers and optics | Optical room | Transmission of the mirrors |
After verification, transmission of P1 correspond to ~150ppm.
The 1337ppm come from a beam leakage. Reflection from P1 goes to the input window which reflects again a part of the beam directly into the cavity between P1 and S3 then between P4 and S2.
| Loïc Amoudry wrote: |
|
We openned the cavity, removed S2 and measured trans of P1 and same for S2.
Pin ~= 3.91 mW
PS2 ~= 20 nW --> ~~ 5 ppm !!!
PP1 ~= 5.23 uW --> ~~ 1337 ppm !?!?!
P1 is the Sapphire mirror. 3mm thick. Tomorrow we'll measure its trans again, being out of the mount for constraint issues.
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27
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Tue Apr 2 18:05:46 2019 |
Loïc Amoudry | Fixed | info | lasers and optics | Optical room | Beam size at closest spherical mirrors position |
S3 and S2 @ +1 640 000 and P1 and P4 @ -825 000
Diameter in x: 4.7mm
Diameter in y: 4.7mm |
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26
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Tue Apr 2 18:03:31 2019 |
Loïc Amoudry | Fixed | report | lasers and optics | Optical room | Transmission of the mirrors |
We openned the cavity, removed S2 and measured trans of P1 and same for S2.
Pin ~= 3.91 mW
PS2 ~= 20 nW --> ~~ 5 ppm !!!
PP1 ~= 5.23 uW --> ~~ 1337 ppm !?!?!
P1 is the Sapphire mirror. 3mm thick. Tomorrow we'll measure its trans again, being out of the mount for constraint issues. |
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25
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Tue Apr 2 17:59:18 2019 |
Loïc Amoudry | Fixed | report | lasers and optics | Optical room | Finesse after removing wires |
19/04/01: We removed the wires from the beam path in the cavity. Finesse stayed at 3400. FSR: 33.342 MHz.
When locked:
Input Power: ~4mW
Through S2: ~0.950uW
Through S3: ~0.930uW
Through P4: ~0.850uW |
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24
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Fri Mar 29 18:33:15 2019 |
Ronic Chiche | Fixed | issue | mechanics | lasers and optics | Optical room | Alignment procedure |
we did again the complete alignment procedure starting with iris and optimizing injection motors Ma and Mb, then installing mirror S2, S3, P4 and P1, optimizing thetaX and thetaY axis for each motor.
everything was fine until we installed P1. we tried to optimize thetaX and thetaY of P1 and we clearly observed a strange motion when doing that :
- for thetaX axis, steps in one direction seem to have a different length from steps in reverse direction.
- for thetaY axis, trying to move in one direction, makes sometime a motion in the reverse direction.
at this moment, it is difficult to say if the problem comes from the controller, the mirror mount or the motor itself.
if both axis are concerned on the same mirror (P1), maybe the problem comes from the mount... to be continued on Monday.
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23
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Thu Mar 28 09:25:58 2019 |
Loïc Amoudry | Fixed | issue | mechanics | Optical room | Motors Z axis reversed |
All Z motors (for P1, S2, S3 and P4) have been initialized again with a proper HOME command with their own controller with the "superviser" software (which means they all moved to the +1650000 position).
Thus, they have been moved to their default position : +825000 for spherical mirrors (S2 and S3) and -825000 for plan mirrors (P1 and P4).
reminder : lower values on the motors makes the motor tip going inside which makes the cavity length larger.
thus spherical mirrors are in default position with a possible big range to put inside the motor tip (for thermal effects compensation).
by complementarity, plan mirrors are in default position with a possible big range to put outside the motor tip.
the Labwindows CVI was buggy about the proper representation of the motors motion in Z direction (wrong direction and wrong default position).
the software is now fixed.
| Loïc Amoudry wrote: |
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S2 and S3 z-axis are initially at 1/4 (5mm/20mm) of there range over ~20mm range. This is meant to be able to spread them up to ~15mm in case of thermal effect.
Actually, they are in an opposite position. Means that they can only be spread of 5mm from the initial position.
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22
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Tue Mar 26 18:32:40 2019 |
Loïc Amoudry | Fixed | report | mechanics | lasers and optics | cabling | Optical room | Wires in laser path |
There was some ceramic wires close to the beem path right before P4. We moved them away (we can imagine they could move again with vibration). |
| Attachment 1: before.jpg
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| Attachment 2: after_wire_displaced.jpg
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