公开(公告)号：EP1540049A1

公开(公告)日：2005-06-15

申请号：EP03772010.9

申请日：2003-07-29

Applicant: Veeco Instruments Inc.

Inventor： COLOMBO, Paul, E. ,  PRIDDY, Scott, Wayne

IPC: C30B23/02 ,  F04B37/08

CPC classification number: C30B23/066 ,  C30B23/02 ,  C30B23/06 ,  F04B37/08

Abstract: An integrated phase separator for use in an ultra high vacuum system, for example, a molecular beam epitaxy system, is described. The vacuum chamber has a cryogenic panel disposed therein. The cryogenic panel includes a cryogenic shroud region and a phase separator region. Liquid nitrogen is introduced into the cryogenic panel via an inlet line. As the liquid nitrogen warms and vaporizes, nitrogen vapor rises within the shroud. The phase separator region within the cryogenic panel provides a near atmospheric pressure vapor barrier over the liquid nitrogen so the t the nitrogen vapor may escape smoothly through the outlet of the panel, without forming gas bursts. Also the phase separator region is vacuum jacketed to prevent cryogenic shroud surface temperature changes due to variations in liquid nitrogen levels, thereby increasing the cryogenic shroud’s pumping stability. In one embodiment, used in molecular beam epitaxy (MBE), the cryopanel is divided into first and second cooling chambers. The first cooling chamber contains liquid nitrogen and surrounds the substrates to be coated, while the second cooling chamber contains a different fluid such as water, and surrounds the effusion cells so as to dissipate heat generated during the operation of effusion cells.

公开(公告)号：EP1330561B1

公开(公告)日：2004-11-10

申请号：EP01971298.3

申请日：2001-09-21

Applicant: Veeco Instruments Inc.

Inventor： COLOMBO, Paul, E.

IPC: C30B23/02 ,  F25J1/02 ,  F04B37/08

CPC classification number: F04B37/08 ,  C30B23/02

Abstract: An integrated phase separator for use in an ultra high vacuum system, for example, a molecular beam epitaxy system, is described. The vacuum chamber has a cryogenic panel disposed therein. The cryogenic panel includes a cryogenic shroud region and a phase separator region. Liquid nitrogen is introduced into the cryogenic panel via an inlet line. As the liquid nitrogen warms and vaporizes, nitrogen vapor rises within the shroud. The phase separator region within the cryogenic panel provides a near atmospheric pressure vapor barrier over the liquid nitrogen so that the nitrogen vapor may escape smoothly through the outlet of the panel, without forming gas bursts. Also, the phase separator region is vacuum jacketed to prevent cryogenic shroud surface temperature changes due to variations in liquid nitrogen levels, thereby increasing the cryogenic shroud's pumping stability.