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Size: 2483
Comment:
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Size: 2531
Comment:
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| Deletions are marked like this. | Additions are marked like this. |
| Line 28: | Line 28: |
| || Density of Sapphire || kg/m^3|| | || Density of Sapphire || 4e3 kg/m^3|| |
| Line 30: | Line 30: |
| || Thermal expansion of Sapphire (20K) || 5.6e-9 K^-1|| || Specific heat of Sapphire (20K) || 0.69 || || Thermal conductivity of Sapphire (20K) || 1.57e4 || || Thermal expansion of Sapphire (300K) || 5.0e-6 K^-1|| || Specific heat of Sapphire (300K) || 790 || || Thermal conductivity of Sapphire (300K) || 40 || |
|| Thermal expansion of Sapphire (20K) || 5.6e-9 /K|| || Specific heat of Sapphire (20K) || 0.69 J/K/kg || || Thermal conductivity of Sapphire (20K) || 1.57e4 W/m || || Thermal expansion of Sapphire (300K) || 5.0e-6 /K|| || Specific heat of Sapphire (300K) || 790 J/K || || Thermal conductivity of Sapphire (300K) || 40 W/m/K || |
| Line 39: | Line 39: |
| || Thermal expansion of Silica (300K) || 5.1e-7 K^-1|| || Specific heat of Silica (300K) || || || Thermal conductivity of Silica (300K) || 1.38 || || dn/dT of Silica (300K) || 8e-6 K^-1 || |
|| Thermal expansion of Silica (300K) || 5.1e-7 /K|| || Specific heat per volume of Silica (300K) || 1.64e6 J/K/m^3 || || Thermal conductivity of Silica (300K) || 1.38 W/m || || dn/dT of Silica (300K) || 8e-6 /K || |
| Line 46: | Line 46: |
| || Thermal expansion of Tantala (300K) || 3.6e-7 K^-1|| || Specific heat of Tantala (300K) || || || Thermal conductivity of Tantala (300K) || 33 || || dn/dT of Tantala (300K) || 14e-6 K^-1 || TO BE COMPLETED... |
|| Thermal expansion of Tantala (300K) || 3.6e-7 /K|| || Specific heat per volume of Tantala (300K) || 2.1e6 J/K/m^3 || || Thermal conductivity of Tantala (300K) || 33 W/m/K || || dn/dT of Tantala (300K) || 14e-6 /K || |
Classical-Noise parameters
There are some issues to be discussed.
Beam radius |
3cm |
|
Suspension length |
40cm |
|
Suspension thickness |
1.8mm |
|
Number of suspension fiber |
4 |
|
Temperature of suspension |
16K |
|
Mechanical loss of fiber |
2e-7 |
|
Mirror radius |
12.5cm |
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Mirror thickness |
15cm |
|
Temperature of suspension |
20K |
|
Mechanical loss of mirror |
1e-8 |
|
Number of coatings (ITM) |
9 |
|
Number of coatings (ETM) |
18 |
|
Mechanical loss of Silica coating |
1e-4 |
|
Mechanical loss of Tantala coating |
4e-4 |
|
Optical loss of each arm |
70ppm/roundtrip |
|
Optical loss in the SRC |
2% |
|
Optical loss at the PD |
10% |
|
Physical constants
Young's modulus of Sapphire |
4e11 Pa |
Density of Sapphire |
4e3 kg/m^3 |
Poisson ratio of Sapphire |
0.29 |
Thermal expansion of Sapphire (20K) |
5.6e-9 /K |
Specific heat of Sapphire (20K) |
0.69 J/K/kg |
Thermal conductivity of Sapphire (20K) |
1.57e4 W/m |
Thermal expansion of Sapphire (300K) |
5.0e-6 /K |
Specific heat of Sapphire (300K) |
790 J/K |
Thermal conductivity of Sapphire (300K) |
40 W/m/K |
Young's modulus of Silica |
7.2e10 Pa |
Poisson ratio of Silica |
0.17 |
Refraction index of Silica |
1.45 |
Thermal expansion of Silica (300K) |
5.1e-7 /K |
Specific heat per volume of Silica (300K) |
1.64e6 J/K/m^3 |
Thermal conductivity of Silica (300K) |
1.38 W/m |
dn/dT of Silica (300K) |
8e-6 /K |
Young's modulus of Tantala |
1.4e11 Pa |
Poisson ratio of Tantala |
0.23 |
Refraction index of Tantala |
2.07 |
Thermal expansion of Tantala (300K) |
3.6e-7 /K |
Specific heat per volume of Tantala (300K) |
2.1e6 J/K/m^3 |
Thermal conductivity of Tantala (300K) |
33 W/m/K |
dn/dT of Tantala (300K) |
14e-6 /K |