T
Tim Schröder
Researcher at Massachusetts Institute of Technology
Publications - 70
Citations - 2734
Tim Schröder is an academic researcher from Massachusetts Institute of Technology. The author has contributed to research in topics: Diamond & Photon. The author has an hindex of 26, co-authored 68 publications receiving 2302 citations. Previous affiliations of Tim Schröder include Humboldt University of Berlin & Humboldt State University.
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Broadband magnetometry and temperature sensing with a light-trapping diamond waveguide
TL;DR: In this paper, a light-trapping diamond waveguide was used to enhance the temperature and magnetic field sensitivity of nitrogen-vacancy centers by three orders of magnitude, which is a significant development.
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Quantum nanophotonics in diamond [Invited]
Tim Schröder,Sara Mouradian,Jiabao Zheng,Matthew E. Trusheim,Michael Walsh,Edward H. Chen,Luozhou Li,Igal Bayn,Dirk Englund +8 more
TL;DR: A review of recent advances in diamond nano-and microphotonic structures for efficient light collection, color center to nanocavity coupling, hybrid integration of diamond devices with other material systems, and the wide range of fabrication methods that have enabled these complex photonic diamond systems can be found in this article.
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Scalable focused ion beam creation of nearly lifetime-limited single quantum emitters in diamond nanostructures
Tim Schröder,Tim Schröder,Matthew E. Trusheim,Michael Walsh,Luozhou Li,Jiabao Zheng,Jiabao Zheng,Marco Schukraft,Alp Sipahigil,Ruffin E. Evans,Denis D. Sukachev,Denis D. Sukachev,Christian Nguyen,Jose Pacheco,Ryan M. Camacho,Edward S. Bielejec,Mikhail D. Lukin,Dirk Englund +17 more
TL;DR: Direct, maskless creation of atom-like single silicon vacancy (SiV) centres in diamond nanostructures via focused ion beam implantation with ∼32 nm lateral precision and <50nm positioning accuracy relative to a nanocavity is demonstrated.
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Coherent spin control of a nanocavity-enhanced qubit in diamond.
Luozhou Li,Tim Schröder,Edward H. Chen,Michael Walsh,Igal Bayn,Jordan Goldstein,Ophir Gaathon,Matthew E. Trusheim,Ming Lu,Jacob Mower,Mircea Cotlet,Matthew Markham,Daniel J. Twitchen,Dirk Englund +13 more
TL;DR: This work reports nitrogen-vacancy-nanocavity systems in the strong Purcell regime with optical quality factors approaching 10,000 and electron spin coherence times exceeding 200 μs using a silicon hard-mask fabrication process, providing an efficient quantum memory for quantum networks.
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Efficient Photon Collection from a Nitrogen Vacancy Center in a Circular Bullseye Grating
Luozhou Li,Edward H. Chen,Jiabao Zheng,Sara Mouradian,Florian Dolde,Tim Schröder,Sinan Karaveli,Matthew Markham,Daniel J. Twitchen,Dirk Englund +9 more
TL;DR: A circular "bullseye" diamond grating is introduced which enables a collected photon rate of (2.7 ± 0.09) × 10(6) counts per second from a single NV with a spin coherence time of 1.1 ms.