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Confirmation of the current status

The first task of this working group is to establish a consensus between the members about the currently proposed ISC scheme. We will confirm what has been done so far in what degree of detail. Then decide what should be done next.

Parameters

(Classical-noise parameters are here)

Parameter

LCGT BRSE(2004)1

LCGT BRSE(2007)2

LCGT BRSE(2009)

LCGT DRSE(2009)

units

Wave length

1064

1064

1064

1064

nm

Initial Laser Power

300

150

150

150

W

Injecting Laser Power into IFO

100

75(carrier)

75

75

W

Modulation depth

Not defined

Not defined

RF freq 1

15.025(AM)

9.98125(AM)

MHz

RF freq 2

49.5825(PM)

59.8875(PM)

MHz

MC1 length

9.755

9.755

m

MC2 length

199.78

180.463?

m

MC1 FSR

15.525

15.525

MHz

MC2 FSR

0.75125

0.831771?

MHz

MC1 Finesse

1720

1720

MHz

MC2 Finesse

1000

1000

MHz

EM Reflectivity

0.99995

0.99995

0.99997

0.99997

FM Reflectivity

0.995

0.996

0.992

0.992

PRM Reflectivity

0.76

0.80

0.77

0.77

SRM Reflectivity

0.68

0.77

0.88

0.88

BS Reflectivity

0.5?

0.5?

0.5

0.5

EM Transmittance

2e-5

2e-5

3e-5

3e-5

FM Transmittance

0.00497

0.00399

0.00398

0.00398

PRM Transmittance

0.23997

0.19999

0.22998

0.22998

SRM Transmittance

0.31997

0.22999

0.11998

0.11998

BS Transmittance

0.49997?

0.49999?

EM Loss

3e-5

1e-5(3e-5?)

2e-5

2e-5

FM Loss

3e-5

1e-5(3e-5?)

2e-5

2e-5

PRM Loss

3e-5

1e-5(3e-5?)

2e-5

2e-5

SRM Loss

3e-5

1e-5(3e-5?)

2e-5

2e-5

BS Loss

3e-5

1e-5(3e-5?)

Arm cavity length

3000

3000

3000

3000

m

PR cavity length

14.9899?

45?

m

PRM-BS length

Not defined

Not defined

m

BS-FM X length

Not defined

Not defined

m

BS-FM Y length

Not defined

Not defined

m

Asymmetry length

1.4990?

7.5?

m

SR cavity length

17.9878?

45?

m

SRM-BS length

Not determined

Not determined

m

SRC detuning phase

pi/2

pi/2

pi/2

1.343

degree

Arm cavity FSR

0.05

0.05

MHz

PRC cavity FSR

19.3166

6.7

MHz

Arm cavity Finesse

1250

1548

777

777

Arm power gain

796

987

Arm power(single)

0.398

0.3859

0.202

0.202

MW

PR gain

10

10.63

11

11

PRC power on BS

1000

797.14

825

825

W

SR gain

10

14.68

?

N/A

Arm cavity cut-off frequency

16.14

31.8

31.8

Hz

PR cavity cut-off frequency

1.209e6

Hz

PR-Arm cut-off frequency

1.189

2.3

2.3

Hz

Signal band

236.9

Hz

MICH contrast

0.995

0.995

Other losses in PRC

Not defined

1e-3

0.02/PRG

0.02/PRG

Other losses in SRC

Not defined

0.02/SRG

0.02/SRG

EM mass

50.9

30

30

30

kg

FM mass

50.9

30

30

30

kg

PRM mass

Not defined

Not defined

kg

SRM mass

Not defined

Not defined

kg

BS mass

Not defined

Not defined

kg

EM ROC

4500

4500

4500

4500

m

FM ROC

Infinity

Infinity

Infinity

Infinity

m

FM AR ROC

12

??

Infinity

Infinity

m

PRM ROC

0.81

??

m

SRM ROC

Not defined

Not defined

m

BS ROC

Infinity

Infinity

m

EM AR Reflectivity

Not defined

1e-3

FM AR Reflectivity

Not defined

1e-3

PRM AR Reflectivity

Not defined

1e-3

SRM AR Reflectivity

Not defined

1e-3

BS AR Reflectivity

Not defined

1e-3

EM AR Loss

Not defined

Not defined

FM AR Loss

Not defined

Not defined

PRM AR Loss

Not defined

Not defined

SRM AR Loss

Not defined

Not defined

BS AR Loss

Not defined

Not defined

EM absorption loss (bulk)

20

20

ppm/cm

FM absorption loss (bulk)

20

20

20

20

ppm/cm

EM absorption loss (coat)

ppm

FM absorption loss (coat)

<1

<1

ppm

PRM absorption loss

5

5

ppm/cm

SRM absorption loss

5

5

ppm/cm

BS absorption loss

5

5

ppm/cm

EM thickness

18

15

15

15

cm

FM thickness

18

15

15

15

cm

PRM thickness

Not defined

Not defined

cm

SRM thickness

Not defined

Not defined

cm

BS thickness

Not defined

Not defined

cm

EM bulk Loss

1000

1000

ppm

FM bulk Loss

1000

1000

ppm

PRM bulk Loss

1000

1000

ppm

SRM bulk Loss

1000

1000

ppm

BS bulk Loss

1000

1000

ppm

OMC input/output mirror reflectivity

0.8

0.8

OMC end mirror reflectivity

0.99995

0.99995

OMC length

0.07

0.07

m

OMC MC FSR

4282

4282

MHz

OMC Finesse

14

14

MHz

Quantum efficiency

Not defined

Not defined

0.9

0.9

 

Frequency Stabilization band width

10000

10000

Hz

CARM control band width

Not defined

0.1

Hz

DARM control band width

Not defined

1000

Hz

PRC control band width

Not defined

1000

Hz

MICH control band width

Not defined

10

Hz

SRC control band width

Not defined

1000

Hz

To do list to define parameters for 2009

Reference

Length Sensing Scheme Review by Somiya (Japanese) lcgtrse.pdf

Length Sensing Scheme Review for advLIGO by Somiya AdvLIGO-LSCv4.pdf

I tried to log in but I'm not sure if I am in, so in case, this is Fumiko :)

Here I put some kat files I used for calculating LCGT signal matrix. LCGT.kat has all the parameters that are used. Note that it was written more than a year ago, and they are not updated. I will list these parameters when I can here, outside the kat file but for now I just attach some files. Also note that they are the same as what Andreas Freise has, because I made these when he needed to collect some LCGT parameters and some kat files and so on. Maybe Koji remembers about him contacting us about a year ago, do you??

Here I have three kat files with three m. files and what do they do?

lcgt.kat / contourplot.m

  • : With contourplot.m, it is used to make contourplots of error signals.

dp.kat / demphase.m

  • : With demphase.m it is used to create a text file "phase.txt"
    • which shows demodulation phase that procuces maximum signals.

s.kat / signalmatrix.m

  • :With signalmatrix.m, it is used to create two text files, "matrix_raw.txt" and "matrix_norm.txt" which show signal matrix with raw values and normalized valies respectively.

ok, now I try to attach files hope it works like this...hm.

  1. 2004 data referred to LCGT design document 1.0. (1)

  2. 2007 data referred to LCGT design document 2.0 and TAC presentation at 2005/8/23 (2)