179
Comment:
|
4240
|
Deletions are marked like this. | Additions are marked like this. |
Line 5: | Line 5: |
* MICH LOCK flag * K1:GRD-LSC_LOCK_STATE_N (16Hz sampling) * 1000 is operation mode |
|
Line 6: | Line 10: |
* K1:CAL-CS_CALHWI_CW_INJ_SW (on:1 off:0) | * (1) K1:CAL-CS_CALHWI_CW_INJ_SW (16Hz sampling, on:1 off:0) * Hardware injection switch of CW injection (used in injection flag) * (2) K1:CAL-CS_CALHWI_HWINJ_SW (16Hz sampling, on:1 off:0) * Hardware injection master switch (used in injection flag) * (3) K1:CAL-CS_CALHWI_(X/Y/BS)_GAIN (16Hz sampling) * Signal gain to X, Y, BS * Injection signal * (4) K1:CAL-CS_CALHWI_HARDWARE_DQ (16kHz sampling) * Total amplitude of Hardware injection(CBC+CW+TEST) * So, total amplitude of CW injection is * (1)*(2)*(3)*(4) [count] * But, we should apply transfer function between injection port and displacement of each test mass when evaluating the TM displacement * time delay between cal model and BS model (~61usec) * digital anti-imaging filter * time delay in the BS IOP(shared memory for DAC output) (~61usec) * time delay in the DAC output (There is unknown issue) (~60usec???) * The detail is summarized in ([[https://gwdoc.icrr.u-tokyo.ac.jp/cgi-bin/private/DocDB/ShowDocument?docid=6924 | JGWDoc6924]]) * analog anti-imaging filter * Coil driver(The transfer function is still investigated, with connection of coil) * Force to length transfer function(1/f^2 for higher frequency) * Actuator efficiency (Large measurement uncertainties due to fluctuation of optical gain) * Injection method * k1script:/users/yokozawa/inj_phase1/inj_dat.sh * k1script:/users/yokozawa/inj_phase1/inj_dat2.sh * Prepare the dat files before injection, scp from other PC, using awgstream we injected signal. * Injection waveforms generation * 15 LIGO injection pulsars([[https://losc.ligo.org/s/injections/o1/cw_injections.html|LIGO O1 CWINJ]]) * using lalapps_Makefakedta_v5 * 6 continuous sine * Lists of pulsar injection ||Pulsar Name||alpha||delta ||cosi||freq||f1dot||psi||phi0||h0[count]||h0[strain]||time shift[sample]|| ||P0||1.248816734||-0.981180225||0.794905||265.5771052||-4.15E-12||0.770087086||2.66||94.772316||9.617384e-17||-5|| ||P1||0.652645832||-0.514042406||0.4638224||849.0832962||-3.00E-10||0.35603553||1.28||100.0||1.048475e-17||-5|| ||P2||3.75692884||0.060108958||-0.928576||575.163573||-1.37E-13||-0.221788475||4.03||100.0||2.211653e-17||-5|| ||P3||3.113188712||-0.583578803||0.0||108.8571594||-1.46E-17||0.444280306||5.53||23.460442||1.409992e-16||-5|| ||P4||4.886706854||-0.217583646||0.277||1403.163331||-2.54E-08||-0.647939117||4.83||100.0||4.236628e-18||-5|| ||P5||5.281831296||-1.463269033||0.463||52.80832436||-4.03E-18||-0.363953188||2.23||10.428252||2.661760e-16||-5|| ||P6||6.261385269||-1.14184021||-0.154||148.7190257||-6.73E-09||0.470984879||0.97||23.421977||7.548300e-17||-5|| ||P7||3.899512716||-0.356930834||0.7568||1220.979581||-1.12E-09||0.512322887||5.25||100.0||5.395542e-18||-5|| ||P8||6.132905166||-0.583263151||0.074||194.3083185||-8.65E-09||0.170470927||5.89||57.916404||1.094865e-16||-5|| ||P9||3.471208243||1.321032538||-0.619||763.8473165||-1.45E-17||-0.008560279||1.01||100.0||1.280789e-17||-5|| ||P10||3.86687549||0.748350133||-0.9877||26.3589129||-8.50E-11||0.6146509787||0.116||14.328620||1.467770e-15||-5|| ||P11||4.97588716||-1.017039902||-0.3293||31.4248598||-5.07E-13||0.4117007425||5.16||29.165637||2.101646e-15||-5|| ||P12||5.79192171||-0.296232668||0.0||39.7276097||-6.25E-09||-0.0683804316||2.79||9.661750||4.356288e-16||-5|| ||P13||0.25||0.25||0.0||12.43||-1E-11||0.0||0.25||80.420440||3.711323e-14||-5|| ||P14||5.25||-0.25||0.0||1991.0926||-1E-12||1.0||1.25||100.0||2.374320e-18||-5|| * Lists of continuous sine injection ||Continuous sine||freq||h0[count]||h0[strain]|| ||SIN0||45.1||14.318534||5.008876e-16|| ||SIN1||105.1||9.331424||6.015860e-17|| ||SIN2||34.1||1.11362198||6.814452e-17|| ||SIN3||89.1||33.723145||3.024328e-16|| ||SIN4||230.1||6.5567239||8.850152e-18|| ||SIN5||410.1||329.608402||1.414400e-16|| * (インジェクションしていた時間とノーマルランをしていた時間をここに書く。) |
Summary of Continuous Wave Injection at bKAGRA phase1 operation
- Worker : T.Yokozawa, A.Miyamoto, T.Sawada
- MICH LOCK flag
- K1:GRD-LSC_LOCK_STATE_N (16Hz sampling)
- 1000 is operation mode
- K1:GRD-LSC_LOCK_STATE_N (16Hz sampling)
- Injection flag
- (1) K1:CAL-CS_CALHWI_CW_INJ_SW (16Hz sampling, on:1 off:0)
- Hardware injection switch of CW injection (used in injection flag)
- (2) K1:CAL-CS_CALHWI_HWINJ_SW (16Hz sampling, on:1 off:0)
- Hardware injection master switch (used in injection flag)
- (3) K1:CAL-CS_CALHWI_(X/Y/BS)_GAIN (16Hz sampling)
- Signal gain to X, Y, BS
- (1) K1:CAL-CS_CALHWI_CW_INJ_SW (16Hz sampling, on:1 off:0)
- Injection signal
- (4) K1:CAL-CS_CALHWI_HARDWARE_DQ (16kHz sampling)
- Total amplitude of Hardware injection(CBC+CW+TEST)
- So, total amplitude of CW injection is
- (1)*(2)*(3)*(4) [count]
- But, we should apply transfer function between injection port and displacement of each test mass when evaluating the TM displacement
- time delay between cal model and BS model (~61usec)
- digital anti-imaging filter
- time delay in the BS IOP(shared memory for DAC output) (~61usec)
- time delay in the DAC output (There is unknown issue) (~60usec???)
The detail is summarized in (JGWDoc6924)
- analog anti-imaging filter
- Coil driver(The transfer function is still investigated, with connection of coil)
- Force to length transfer function(1/f^2 for higher frequency)
- Actuator efficiency (Large measurement uncertainties due to fluctuation of optical gain)
- Injection method
- k1script:/users/yokozawa/inj_phase1/inj_dat.sh
- k1script:/users/yokozawa/inj_phase1/inj_dat2.sh
- Prepare the dat files before injection, scp from other PC, using awgstream we injected signal.
- Injection waveforms generation
15 LIGO injection pulsars(LIGO O1 CWINJ)
- using lalapps_Makefakedta_v5
- 6 continuous sine
- Lists of pulsar injection
Pulsar Name |
alpha |
delta |
cosi |
freq |
f1dot |
psi |
phi0 |
h0[count] |
h0[strain] |
time shift[sample] |
P0 |
1.248816734 |
-0.981180225 |
0.794905 |
265.5771052 |
-4.15E-12 |
0.770087086 |
2.66 |
94.772316 |
9.617384e-17 |
-5 |
P1 |
0.652645832 |
-0.514042406 |
0.4638224 |
849.0832962 |
-3.00E-10 |
0.35603553 |
1.28 |
100.0 |
1.048475e-17 |
-5 |
P2 |
3.75692884 |
0.060108958 |
-0.928576 |
575.163573 |
-1.37E-13 |
-0.221788475 |
4.03 |
100.0 |
2.211653e-17 |
-5 |
P3 |
3.113188712 |
-0.583578803 |
0.0 |
108.8571594 |
-1.46E-17 |
0.444280306 |
5.53 |
23.460442 |
1.409992e-16 |
-5 |
P4 |
4.886706854 |
-0.217583646 |
0.277 |
1403.163331 |
-2.54E-08 |
-0.647939117 |
4.83 |
100.0 |
4.236628e-18 |
-5 |
P5 |
5.281831296 |
-1.463269033 |
0.463 |
52.80832436 |
-4.03E-18 |
-0.363953188 |
2.23 |
10.428252 |
2.661760e-16 |
-5 |
P6 |
6.261385269 |
-1.14184021 |
-0.154 |
148.7190257 |
-6.73E-09 |
0.470984879 |
0.97 |
23.421977 |
7.548300e-17 |
-5 |
P7 |
3.899512716 |
-0.356930834 |
0.7568 |
1220.979581 |
-1.12E-09 |
0.512322887 |
5.25 |
100.0 |
5.395542e-18 |
-5 |
P8 |
6.132905166 |
-0.583263151 |
0.074 |
194.3083185 |
-8.65E-09 |
0.170470927 |
5.89 |
57.916404 |
1.094865e-16 |
-5 |
P9 |
3.471208243 |
1.321032538 |
-0.619 |
763.8473165 |
-1.45E-17 |
-0.008560279 |
1.01 |
100.0 |
1.280789e-17 |
-5 |
P10 |
3.86687549 |
0.748350133 |
-0.9877 |
26.3589129 |
-8.50E-11 |
0.6146509787 |
0.116 |
14.328620 |
1.467770e-15 |
-5 |
P11 |
4.97588716 |
-1.017039902 |
-0.3293 |
31.4248598 |
-5.07E-13 |
0.4117007425 |
5.16 |
29.165637 |
2.101646e-15 |
-5 |
P12 |
5.79192171 |
-0.296232668 |
0.0 |
39.7276097 |
-6.25E-09 |
-0.0683804316 |
2.79 |
9.661750 |
4.356288e-16 |
-5 |
P13 |
0.25 |
0.25 |
0.0 |
12.43 |
-1E-11 |
0.0 |
0.25 |
80.420440 |
3.711323e-14 |
-5 |
P14 |
5.25 |
-0.25 |
0.0 |
1991.0926 |
-1E-12 |
1.0 |
1.25 |
100.0 |
2.374320e-18 |
-5 |
- Lists of continuous sine injection
Continuous sine |
freq |
h0[count] |
h0[strain] |
SIN0 |
45.1 |
14.318534 |
5.008876e-16 |
SIN1 |
105.1 |
9.331424 |
6.015860e-17 |
SIN2 |
34.1 |
1.11362198 |
6.814452e-17 |
SIN3 |
89.1 |
33.723145 |
3.024328e-16 |
SIN4 |
230.1 |
6.5567239 |
8.850152e-18 |
SIN5 |
410.1 |
329.608402 |
1.414400e-16 |
- (インジェクションしていた時間とノーマルランをしていた時間をここに書く。)