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generate, control, and measure quantum states in atomic and nanomechanical systems which can | generate, control, and measure quantum states in atomic and nanomechanical systems which can | ||
lead to enhanced quantum sensing. | lead to enhanced quantum sensing. | ||
{{Media/Button|Lee-JH-2019.pdf|Talk slides}} | |||
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Latest revision as of 09:56, 1 June 2019

- Speaker: Dr. Lee, Jae Hoon (KRISS)
- Date: Wednesday May 22, 2019 05:00pm
- Place: Jungho Seminar Room
Atomic systems, having the advantage of possessing universal properties, are widely used in
quantum sensors requiring absolute accuracy, such as atomic clocks. In particular, leveraging matter
wave interference in Bose-Einstein condensates (BECs) allow for “macroscopic” observation of
quantum effects that are typically attributed to the physical phenomena of single atoms. Atomic
physics experiments at KRISS are introduced which are geared towards precision metrology by
utilizing the amplification of quantum signatures with BECs. Furthermore, we explore ways to
generate, control, and measure quantum states in atomic and nanomechanical systems which can
lead to enhanced quantum sensing.