Note: Mounting ultra-high vacuum windows with low stress-induced birefringence
We have developed a way to mount ultra-high vacuum windows onto standard ConFlat ® vacuum systems with very low stress-induced birefringence. Each window is sealed to a stainless steel flange with a compressed indium wire, and that flange is connected to a vacuum chamber with another indium seal. We...
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Veröffentlicht in: | Review of scientific instruments 2011-06, Vol.82 (6), p.066105-066105-3 |
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creator | Solmeyer, Neal Zhu, Kunyan Weiss, David S. |
description | We have developed a way to mount ultra-high vacuum windows onto standard ConFlat
®
vacuum systems with very low stress-induced birefringence. Each window is sealed to a stainless steel flange with a compressed indium wire, and that flange is connected to a vacuum chamber with another indium seal. We find that deformation of a standard ConFlat flange during indium sealing dominates the stress on the window, so an extra-rigid flange is needed for minimal birefringence. With this mounting scheme, the typical residual birefringence is Δ
n
= 2.3 × 10
−7
and is unchanged by a 120°C bake. |
doi_str_mv | 10.1063/1.3606437 |
format | Article |
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®
vacuum systems with very low stress-induced birefringence. Each window is sealed to a stainless steel flange with a compressed indium wire, and that flange is connected to a vacuum chamber with another indium seal. We find that deformation of a standard ConFlat flange during indium sealing dominates the stress on the window, so an extra-rigid flange is needed for minimal birefringence. With this mounting scheme, the typical residual birefringence is Δ
n
= 2.3 × 10
−7
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®
vacuum systems with very low stress-induced birefringence. Each window is sealed to a stainless steel flange with a compressed indium wire, and that flange is connected to a vacuum chamber with another indium seal. We find that deformation of a standard ConFlat flange during indium sealing dominates the stress on the window, so an extra-rigid flange is needed for minimal birefringence. With this mounting scheme, the typical residual birefringence is Δ
n
= 2.3 × 10
−7
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®
vacuum systems with very low stress-induced birefringence. Each window is sealed to a stainless steel flange with a compressed indium wire, and that flange is connected to a vacuum chamber with another indium seal. We find that deformation of a standard ConFlat flange during indium sealing dominates the stress on the window, so an extra-rigid flange is needed for minimal birefringence. With this mounting scheme, the typical residual birefringence is Δ
n
= 2.3 × 10
−7
and is unchanged by a 120°C bake.</abstract><cop>United States</cop><pub>American Institute of Physics</pub><pmid>21721740</pmid><doi>10.1063/1.3606437</doi><tpages>1</tpages></addata></record> |
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title | Note: Mounting ultra-high vacuum windows with low stress-induced birefringence |
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