Semiconductor wafers are held in position within a transfer chamber as it is subjected to pressurization and depressurization during transfer of the wafers between ambient atmosphere and an inspection chamber which is maintained at vacuum pressure. The transfer chamber is interposed between the ambient atmosphere and the inspection chamber. A paddle is arranged in the transfer chamber and has a wafer-receiving surface with openings formed therein adapted to be covered by a wafer. A vacuum actuated system draws the wafer to the wafer-receiving surface of the paddle by providing suction at the openings. Since the wafer is thus drawn to the paddle, the wafer is securely retained on the paddle during depressurization and repressurization of the transfer chamber. To further inhibit motion during repressurization, gas is backfilled into the transfer chamber through a diffuser as a laminar flow.
Vibration-Isolating Coupling Including An Elastomer Diaphragm For Scanning Electron Microscope And The Like
Neil Casa - Arlington MA, US Kenneth Braun - Littleton MA, US Michael Busky - Berlin MA, US
Assignee:
SCHLUMBERGER TECHNOLOGIES, INC. - San Jose CA
International Classification:
H01J037/18
US Classification:
250/441110
Abstract:
A coupling in a metrology system for placement between a floating inspection chamber and a fixed transfer chamber. The coupling prevents transfer of vibrations between the chambers and seals a passage between the chambers. The coupling includes a first flange attached to the inspection chamber, a second flange not in contact with the first flange and attached to the transfer chamber, and a looped diaphragm having an outer peripheral edge region secured to the first flange and an inner peripheral edge region secured to the second flange to thereby couple the flanges together and close a space between the flanges. Clamps are provided for securing the outer and inner peripheral edge regions of the diaphragm to the first and second flanges, respectively.