Chip-scale atomic devices: from atomic clocks to brain imaging and beyond

Seminar
Speaker
Dr. John Kitching Atomic Devices and Instrumentation Group NIST, Time and Frequency Division Boulder, Colorado, USA
Date
17/02/2014 - 12:30Add to Calendar 2014-02-17 12:30:00 2014-02-17 12:30:00 Chip-scale atomic devices: from atomic clocks to brain imaging and beyond We describe work a NIST to develop precision instruments based on atomic spectroscopy, advanced semiconductor lasers and micro-electro-mechanical systems (MEMS). These millimeter-scale instruments achieve useful levels of stability or sensitivity but with reduced power consumption and potentially reduced manufacturing cost compared to their larger counterparts. Physics packages for atomic frequency references with fractional frequency stabilities in the range of 10-11 over one hour have been demonstrated. Using similar device designs and processing, magnetometers with sensitivities below 10 fT/ÖHz have been demonstrated, making them competitive with commercial SQUID-based sensors without the need for cryogenic cooling. The design, fabrication and performance of these instruments will be described, as well as a number of applications to which the devices are well-suited.  Note: Dr. Kitching will give a more specialized seminar, later on the same day at Resnick bulg. Room 301, Physics Bld. 202 Department of Physics physics.dept@mail.biu.ac.il Asia/Jerusalem public
Place
Room 301, Physics Bld. 202
Abstract

We describe work a NIST to develop precision instruments based on atomic spectroscopy, advanced semiconductor lasers and micro-electro-mechanical systems (MEMS). These millimeter-scale instruments achieve useful levels of stability or sensitivity but with reduced power consumption and potentially reduced manufacturing cost compared to their larger counterparts. Physics packages for atomic frequency references with fractional frequency stabilities in the range of 10-11 over one hour have been demonstrated. Using similar device designs and processing, magnetometers with sensitivities below 10 fT/ÖHz have been demonstrated, making them competitive with commercial SQUID-based sensors without the need for cryogenic cooling. The design, fabrication and performance of these instruments will be described, as well as a number of applications to which the devices are well-suited. 

Note: Dr. Kitching will give a more specialized seminar, later on the same day at Resnick bulg.

Last Updated Date : 27/01/2014