Programmable Control of Indistinguishable Particles: From Sampling to Clocks to Qubits
Offered By: Stanford Physics via YouTube
Course Description
Overview
Explore the frontiers of quantum information science in this Stanford Physics colloquium talk. Delve into the challenges and advancements in preparing and controlling large quantum systems of identical particles or qubits. Focus on the promising platform of optically-trapped neutral atoms, examining new tools developed using exotic atomic species, innovative trapping architectures, and novel control methods. Discover recent scientific directions, including the application of bosonic atoms for sampling problems, the development of a new type of atomic clock, and the exploration of a unique qubit design. Gain insights into how these developments are shaping the future of quantum metrology and computing.
Syllabus
Adam Kaufman - "Programmable control of indistinguishable particles from sampling to clocks to qubi
Taught by
Stanford Physics
Related Courses
Atomic and Optical Physics: Quantum States and Dynamics of PhotonsMassachusetts Institute of Technology via edX Quantum Detectors
Purdue University via edX Quantum Technology - Concepts and Prospects
International Centre for Theoretical Sciences via YouTube Introduction to Precision Measurements and Quantum Metrology
International Centre for Theoretical Sciences via YouTube Roles of Accurate Many-body Calculations for High-precision Spectroscopic Analysis
International Centre for Theoretical Sciences via YouTube