Mikhail Lukin - Exploring A New Frontier of Quantum Science

December 3, 2019

3:45PM - 4:45PM

Physics Research Building Room 1080

Add to Calendar 2019-12-03 15:45:00 2019-12-03 16:45:00 Mikhail Lukin - Exploring A New Frontier of Quantum Science Physics Department Colloquium Tuesday, December 3 Physics Research Building, Room 1080 Mikhail Lukin, Harvard University Title: Exploring A New Frontier of Quantum Science   Abstract: We will discuss recent developments at a new scientific interface between quantum optics, many-body physics and quantum information science. Examples include quantum control of large arrays of individually trapped, cold Rydberg atom arrays to realize programmable quantum simulators  and  coherent  manipulation of strongly interacting atom-like impurities in diamond nanophotonic systems to create efficient light-matter interfaces.  We will discuss how these  systems and techniques can be used for creating and probing new states of matter, realizing large scale entangled states, testing new quantum algorithms,  realizing new approaches for quantum communication and developing new applications such as  nanoscale sensing in biology and material science.   Physics Research Building Room 1080 Institute for Optical Science spectroscopy@osu.edu America/New_York public

Physics Department Colloquium

Tuesday, December 3

Physics Research Building, Room 1080

Mikhail Lukin, Harvard University

Title: Exploring A New Frontier of Quantum Science

Abstract:

We will discuss recent developments at a new scientific interface between quantum optics, many-body physics and quantum information science. Examples include quantum control of large arrays of individually trapped, cold Rydberg atom arrays to realize programmable quantum simulators and coherent manipulation of strongly interacting atom-like impurities in diamond nanophotonic systems to create efficient light-matter interfaces. We will discuss how these systems and techniques can be used for creating and probing new states of matter, realizing large scale entangled states, testing new quantum algorithms, realizing new approaches for quantum communication and developing new applications such as nanoscale sensing in biology and material science.