CUbit Quantum Seminar

Abstract: 

• Abstract: Spin-orbit coupled Bose-Einstein condensates, where the internal state of the atoms is linked to their momentum through optical coupling, are a flexible experimental platform to engineer synthetic quantum many-body systems. In my talk, I will present recent work where we have exploited the interplay of spin-orbit coupling and tunable interactions in potassium BECs to realize two unconventional superfluid phases.

• Abstract:This talk has two parts. In the first part I’ll reflect on the current status and prospects for quantum computing. In the second part I’ll describe recent results about using classical machine learning and quantum data to predict properties of complex quantum systems. In particular, these results highlight the potential for machine learning models to predict the output of a complex quantum process much faster than the time needed to run the process itself. The talk draws on material from these references:

Light refreshments will be served starting at 3:30 p.m. Talk begins at 4 p.m.
This seminar series is sponsored by CUbit with generous support of the Caruso Foundation.

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Abstract: 

The CUbit Quantum Initiative presents our next speaker of the Spring 2023 CUbit Quantum Seminar Series, Professor Mikhail Lukin (Harvard).  Professor Lukin will speak on Monday, May 1st at 4:00 pm in the CASE Auditorium. Coffee and cookies will be offered beginning at 3:30 pm.

This talk has been CANCELLED.

Title: Developing Deployable Quantum Sensors

Abstract: 

Abstract: In this talk, I will describe recent developments in the Simon/Schuster collaboration, where we are harnessing cavity quantum electrodynamics for both manybody physics and quantum information. I will begin with an overview of our photonic quantum materials efforts, highlighting the analogy between photons in a lattice of cavities (or family of cavity modes) and electrons in solids.

Abstract: 

Abstract: Quantum computing has entered a compelling scientific era as now quantum algorithms can be run on multiple physical systems.