Thermal and Dissipative effects in Casimir Physics
Thermal and Dissipative effects in Casimir Physics
Thermal and Dissipative effects in Casimir Physics
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Vacuum chamber close up<br />
• Top micrometer (coarse) <strong>and</strong> PZT (f<strong>in</strong>e) for optical fiber-resonator distance<br />
• Bottom micrometer (coarse) <strong>and</strong> 2 x PZTs (f<strong>in</strong>e) for distance control<br />
(common mode) <strong>and</strong> for 1D parallelization (differential mode)<br />
• Sta<strong>in</strong>less steel,<br />
5mm diameter<br />
cyl<strong>in</strong>der<br />
• Sta<strong>in</strong>less steel,<br />
1cm x 2 cm x<br />
0.11 mm resonator<br />
(247 Hz)<br />
• Lateral rotary<br />
micrometer +<br />
goniometer for<br />
coarse parallelization<br />
10