Precision Measurement | JILA Physics Frontier Center

Falling Dominos and an Army of Schrödinger’s Cats

Tweezing a New Kind of Atomic Clock

optical tweezers holding atoms, connected by a clock

Drumming to the Heisenberg Beat

Work in the Lehnert Lab has been able to measure the movement of a quantum drum so precisely that the Heisenberg uncertainty principle is on full display.

Fellows Jun Ye and Deborah Jin named Most Highly Cited Researchers for 2019

Read more about Fellows Jun Ye and Deborah Jin named Most Highly Cited Researchers for 2019

Counting the quietest sounds in the universe

This diagram shows how the Lehnert Group can measure phonons

JILA team demonstrates model system for distribution of more accurate time signals

Read more about JILA team demonstrates model system for distribution of more accurate time signals

Former JILA research associate wins 2019 Packard Fellowship

Shimon Kolkowitz, former JILA research associate in the Ye group, won the 2019 Packard Fellowship

Read more about Former JILA research associate wins 2019 Packard Fellowship

Upcoming workshop: Optomechanical architectures for precision sensing

Teaser

We are organizing an upcoming workshop on optomechanical architectures for new physics searches through force signatures on scalable arrays of mechanical resonators. The workshop is sponsored by an APS Moore Foundation Fundamental Physics convening award and co-sponsored by the JILA NSF Physics Frontier Center and JQI.

Read more about Upcoming workshop: Optomechanical architectures for precision sensing

Keep it steady

Silicon cavity constructed at JILA to reduce noise in optical atomic clock

DNA imaging, ready in five minutes

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