Harvard University Department of Physics

Safely Releasing Genetically Modified Genes into the Wild

So, you’ve genetically engineered a malaria-resistant mosquito, now what? How many mosquitos would you need to replace the disease-carrying wild type? How many mosquitos would you need to replace the disease-carrying wild type? What is the most effective distribution pattern?...

Topological Quantum Optics in Two-Dimensional Atomic Arrays

In a new paper in Physical Review Letters, physicists in Prof. Mikhail Lukin's group, together with colleagues from Spain and Austria, propose a platform for studying topological effects in quantum optical systems which involves 2D atomic emitter arrays in optical lattices...

Control and Measure of Electron Spin Voltage

Information technologies of the future will likely use electron spin — rather than electron charge — to carry information. But first, scientists need to better understand how to control spin and learn to build the spin equivalent of electronic components, from spin transistors, to spin gates and circuits...

UPCOMING EVENTS

Tomorrow

Prof. Tyrone Porter - Boston University
Start: 05:30pm - End: 07:00pm
- 05:30pm
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Friday, September 1st

CMP Special Seminar: Binghai Yan (The Weizmann Institute), hosted by Ashvin Vishwanath
Start: 11:00am - End: 12:00pm
- 11:00am
- Title: Antiferromagnetic Weyl semimetals with strong anomalous Hall and spin Hall effects
  
  Abstract: The Weyl semimetal is a new topological state of matter discovered recently. It exhibits not only topologically protected surface states (similar to the topological insulator), but also fascinating charge and spin transport properties in the bulk. In this talk, I will introduce a new type of Weyl semimetal in chiral AFM materials, Mn3Ge and Mn3Sn [1]. They show Weyl points where bands cross linearly with large Berry phases in the band structure [2], giving rise to large anomalous Hall effect observed in recent experiments [3]. Furthermore, we have found a unique spin Hall effect (SHE) in these materials [4], which converts a charge current into a transverse spin current and vice versa. Here, we revealed a mechanism to realize the SHE without requiring spin-orbit coupling, although the SHE has long been believed to be a phenomenon induced by the spin–orbit coupling. Refs: [1] Yang et al. New J. Phys. 19, 015008 (2017). [2] Zhang et al. Phys. Rev. B  95, 075128 (2017). [3] Nakatsuji et al. Nature 527 212 (2015); Nayak et al. Science Advances 2, 150187 (2016). [4] Zhang et al. arXiv:1704.03917 (2017).
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Wednesday, September 6th

Prof. Chuanhua Duan - Boston University
Start: 05:30pm - End: 07:00pm
- 05:30pm
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Wednesday, September 13th

Prof. Dorothee Kern - Brandeis University
Start: 05:30pm - End: 07:00pm
- 05:30pm
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