The design of low-temperature tunnel current converters and the design of a low-temperature damping stage for a scanning tunneling microscope ~STM! are presented. The current amplifiers are able to measure very low tunnel current ~down to 0.25 pA!, while preserving a sufficient bandwidth for topographic and spectroscopic measurements and with very low noise characteristics ~down to 3 fAHz21/2!. The design of a compact low-temperature magnetic damping stage with a resonance frequency of about 7 Hz, protecting the microscope mechanics against mechanical vibrations of the cryostat is also described. The damped stage with the microscope mechanics is in contact with the cryostat during cooling, while during the STM measurements, it is mechanically isolated.
Low noise current-to-voltage converter and vibration damping system for a low-temperature ultrahigh vacuum scanning tunneling microscope
Eva Bystrenova;
2003
Abstract
The design of low-temperature tunnel current converters and the design of a low-temperature damping stage for a scanning tunneling microscope ~STM! are presented. The current amplifiers are able to measure very low tunnel current ~down to 0.25 pA!, while preserving a sufficient bandwidth for topographic and spectroscopic measurements and with very low noise characteristics ~down to 3 fAHz21/2!. The design of a compact low-temperature magnetic damping stage with a resonance frequency of about 7 Hz, protecting the microscope mechanics against mechanical vibrations of the cryostat is also described. The damped stage with the microscope mechanics is in contact with the cryostat during cooling, while during the STM measurements, it is mechanically isolated.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
