Harvard University Department of Physics

ColliderScope

Experimental music from experimental physics, ColliderScope is a musical project of Lawrence Lee, a Postdoctoral Fellow working at the Large Hadron Collider at CERN. With a unique form of audio synthesis, waveforms are designed to show images from the world of experimental particle physics...

Schrödinger's Cat with 20 Qubits

Dead or alive, left-spinning or right-spinning—in the quantum world particles such as the famous analogy of Schrödinger's cat can be all these things at the same time. Postdoc Ahmed Omran and grad student Harry Levine, of Mikhail Lukin group...

Magic Angle Hierarchy in Twisted Graphene Multilayers

The recent discovery of correlated insulating states and superconductivity in twisted bilayer graphene has opened the door to a new approach to designing correlated materials by controlling the twist angles. In a new study published in Physical Revew B, researchers in Prof. Vishwanath group...

UPCOMING EVENTS

Yesterday

ITAMP LabCosmo Workshop (AMO techniques for cosmology)
Start: - End:
- https://www.cfa.harvard.edu/itamp-event/itamp-laboratory-cosmology-workshop-amo-physics-techniques-and-applications
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Today

CUA Seminar: Selim Jochim (University of Heidelberg)
Start: 04:00pm - End: 05:30pm
- 04:00pm
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Yann LeCun Loeb Lecture
Start: 04:15pm - End: 05:45pm
- 04:15pm
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Tomorrow

No JQS - Reason: Loeb lectures
Start: - End:
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Yann LeCun Loeb Lecture
Start: 04:15pm - End: 05:45pm
- 04:15pm
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Colm Kelleher (Harvard)
Start: 06:00pm - End: 07:30pm
- 06:00pm
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Thursday, September 19th

Hannes Pichler ITAMP Seminar
Start: 12:00pm - End: 01:00pm
- Title: High-fidelity multi-qubit gates with neutral atoms
  
  Abstract: Trapped neutral atoms are attractive building blocks for large scale quantum information systems. They can be readily manipulated in large numbers while maintaining excellent quantum coherence. In this talk I will review different approaches to realize entangling gates between neutral atoms based on the Rydberg blockade mechanism. I will then introduce a new protocol for realizing fast controlled phase gates between individual neutral atoms. This protocol has the distinct feature that it does not require individual addressing of the control and taget qubit. Moreover it can be generalized to obtain a family of natural multi-qubit entangling gates in Rydberg systems. I will report on the experimental implementation of these gates, benchmarked by preparing 5 Bell pairs in parallel, with average fidelity of F ≥ 95.0(2)%, and extract gate fidelity ≥ 97.4(3)%, representing the highest fidelity entangling gates based on Rydberg interactions reported so far. Finally, I will comment on how these building blocks can be used to implement quantum optimization algorithms on near-term devices.
- 12:00pm
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CMP Weekly Seminar: Gregory Fiete (Northeastern University), hosted by Bert Halperin
Start: 01:30pm - End: 02:30pm
- Title: Effective Descriptions of Time Periodic Systems
  
  Abstract: Recently, there has been much interest in non-equilibrium phenomena in cold atomic gases and condensed matter systems. An important class of non-equilibrium systems includes those subjected to periodic drive, such as cold atoms in an optical lattice with periodically modulated parameters, or a solid state system with an incident laser beam. In this talk, I will describe some of our recent theoretical work aimed at finding accurate effective Hamiltonians for general periodically driven systems, including those with interactions. I will describe a “flow equation approach” inspired by renormalization group-type ideas that provides a useful description for highly accurate effective Hamiltonians. The method also serves as an anchor point for a wide range of approximate, physically motivated treatments of obtaining the effective Hamiltonian. I will also describe complementary work aimed at finding accurate Floquet Hamiltonians in the low-frequency, low-drive intensity limit.
  
  References:
  [1] M. Vogl, P. Laurell, A. D. Barr, G. A. Fiete, “A flow equation approach to periodically driven systems”, Phys. Rev. X 9, 021037 (2019).
  [2] M. Vogl, P. Laurell, A. D. Barr, G. A. Fiete, “Analogue of Hamilton-Jacobi theory for the time-evolution operator”, Phys. Rev. A 100, 012132 (2019)
  [3] M. Vogl, M. Rodriguez-Vega, G. A. Fiete, “Effective Floquet Hamiltonian in the low-frequency regime”, arXiv:1909.04263
- 01:30pm
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Monday, September 23rd

Gerard 't Hooft - Utrecht University
Start: 04:30pm - End: 05:30pm
- "Exotic physics explaining the quantum properties of black holes"
  
  Like any ordinary object in physics, large or small, black holes are expected to obey a Schroedinger equation describing their evolution and interactions with material falling in. Although string theories give results that agree with this expectation, they do not seem to explain how this can be squared with general coordinate transformations near the horizon. It looks as if black hole horizons turn into brick walls or contain other obstacles against simple extrapolations of known laws of physics there. We argue that such problems can be resolved by applying new transformations when there is a horizon in sight. No string theories or AdS/CFT transformations are needed to understand what it might be that is going on.
- 04:30pm
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