Graduate Thesis Or Dissertation
Quantum Metrology and Many-Body Physics: Pushing the Frontier of the Optical Lattice Clock Öffentlichkeit Deposited
https://scholar.colorado.edu/concern/graduate_thesis_or_dissertations/7d278t024
- Abstract
- Neutral atom optical standards require the highest levels of laser precision to operate near the limit set by quantum fluctuations. We develop state-of-the-art ultra-stable laser systems to achieve a factor of 10 enhancement in clock measurement precision and additionally demonstrate optical linewidths below 50 mHz. The most stable of these lasers reaches its thermal noise floor of 1 × 10-16 fractional frequency instability, allowing the attainment of near quantum-noise-limited clock operation with single-clock instabilities of 3×10-16 at 1 s. We utilize this high level of spectral resolution to operate a 87Sr optical lattice clock in a regime in which quantum collisions play a dominant role in the dynamics, enabling the study of quantum many-body physics. With a fractional level of precision of near 1 × 10-16 at 1 s, we clearly resolve the signatures of many-body interactions. We find that the complicated interplay between the p wave-dominated elastic and inelastic interaction processes between lattice-trapped atoms leads to severe lineshape distortion, shifts, and loss of Ramsey fringe contrast. We additionally explore the theoretical prediction that these many-body interactions will modify the quantum fluctuations of the system and we find that in certain parameter regimes the quantum noise distribution exhibits a quadrature dependence. We further present technological advancements that will permit ultra-stable lasers to operate with reduced thermal noise, leading to a potential gain of an additional factor of 10 in stability. This indicates that laser fractional frequency instabilities of 1 × 10-17 are within experimental reach, as is a fully-quantum-limited regime of optical clock operation.
- Creator
- Date Issued
- 2013
- Academic Affiliation
- Advisor
- Committee Member
- Degree Grantor
- Commencement Year
- Subject
- Zuletzt geändert
- 2019-11-16
- Resource Type
- Urheberrechts-Erklärung
- Language
Beziehungen
Artikel
Miniaturansicht | Titel | Datum Hochgeladen | Sichtbarkeit | Aktionen |
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quantumMetrologyAndManyBodyPhysicsPushingTheFrontierOf.pdf | 2019-11-11 | Öffentlichkeit | Herunterladen |