Travis Lee Nicholson
Postgraduate:
Main Appointment:
Joint Appointments:
Research Fields:
Research Areas:
Research Fields:
- STEMM – Science, Technology, Engineering, Mathematics, Medical Sciences
Research Keywords:
- Quantum Physics
- Quantum Computation
- Atomic Physics
- Quantum Simulation
- Experimental Physics
Current Appointments:
Brief Description of Research:
My team does experimental quantum science with atoms cooled near absolute zero. We investigate things like quantum information, atomic clocks, quantum many-body physics, and exotic quantum systems. In our team, you will explore the frontiers of quantum physics while becoming proficient in lasers, quantum measurements, electronics, optics, programming, and more.
Total Number of Publications:
Five Representative Publications:
1) Observation of three-photon bound states in a quantum nonlinear medium, Science 359, 783 (2018)
2) Symmetry-protected collisions between strongly interacting photons, Nature 542, 206 (2017)
3) Systematic evaluation of an atomic clock at 2e-18 total uncertainty, Nature Communications 6, 6896 (2015)
4) An optical lattice clock with accuracy and stability at the 10^-18 level, Nature 506, 71 (2014)
5) Comparison of two independent Sr optical clocks with 1e-17 stability at 10^3s, Physical Review Letters 109, 230801 (2012)
My Research Videos:
Top 5 Publications:
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Journals Published:
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Appointments
Education
Research Areas
- Quantum Physics
- Quantum Computation
- Atomic Physics
- Quantum Simulation
- Experimental Physics
Research Description
My team does experimental quantum science with atoms cooled near absolute zero. We investigate things like quantum information, atomic clocks, quantum many-body physics, and exotic quantum systems. In our team, you will explore the frontiers of quantum physics while becoming proficient in lasers, quantum measurements, electronics, optics, programming, and more.
Research Videos
Selected Publications
1) Observation of three-photon bound states in a quantum nonlinear medium, Science 359, 783 (2018)
2) Symmetry-protected collisions between strongly interacting photons, Nature 542, 206 (2017)
3) Systematic evaluation of an atomic clock at 2e-18 total uncertainty, Nature Communications 6, 6896 (2015)
4) An optical lattice clock with accuracy and stability at the 10^-18 level, Nature 506, 71 (2014)
5) Comparison of two independent Sr optical clocks with 1e-17 stability at 10^3s, Physical Review Letters 109, 230801 (2012)