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1. Isolated spin qubits in SiC with a high-fidelity infrared spin-to-photon interface

Author

Christle, David J., Klimov, Paul V., Casas, Charles F. de las, Szász, Krisztián, Ivády, Viktor, Jokubavicius, Valdas, Hassan, Jawad ul, Syväjärvi, Mikael, Koehl, William F., Ohshima, Takeshi, Son, Nguyen T., Janzén, Erik, Gali, Ádám, and Awschalom, David D.

Subjects
Quantum Physics, Condensed Matter - Mesoscale and Nanoscale Physics, Condensed Matter - Materials Science
Abstract

The divacancies in SiC are a family of paramagnetic defects that show promise for quantum communication technologies due to their long-lived electron spin coherence and their optical addressability at near-telecom wavelengths. Nonetheless, a mechanism for high-fidelity spin-to-photon conversion, which is a crucial prerequisite for such technologies, has not yet been demonstrated. Here we demonstrate a high-fidelity spin-to-photon interface in isolated divacancies in epitaxial films of 3C-SiC and 4H-SiC. Our data show that divacancies in 4H-SiC have minimal undesirable spin-mixing, and that the optical linewidths in our current sample are already similar to those of recent remote entanglement demonstrations in other systems. Moreover, we find that 3C-SiC divacancies have millisecond Hahn-echo spin coherence time, which is among the longest measured in a naturally isotopic solid. The presence of defects with these properties in a commercial semiconductor that can be heteroepitaxially grown as a thin film on shows promise for future quantum networks based on SiC defects., Comment: 26 pages, 4 figures

Published
2017
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2. Scalable Quantum Photonics with Single Color Centers in Silicon Carbide

Author

Radulaski, Marina, Widmann, Matthias, Niethammer, Matthias, Zhang, Jingyuan Linda, Lee, Sang-Yun, Rendler, Torsten, Lagoudakis, Konstantinos G., Son, Nguyen Tien, Janzén, Erik, Ohshima, Takeshi, Wrachtrup, Jörg, and Vučković, Jelena

Subjects
Physics - Optics, Condensed Matter - Materials Science, Quantum Physics
Abstract

Silicon carbide is a promising platform for single photon sources, quantum bits (qubits) and nanoscale sensors based on individual color centers. Towards this goal, we develop a scalable array of nanopillars incorporating single silicon vacancy centers in 4H-SiC, readily available for efficient interfacing with free-space objective and lensed-fibers. A commercially obtained substrate is irradiated with 2 MeV electron beams to create vacancies. Subsequent lithographic process forms 800 nm tall nanopillars with 400-1,400 nm diameters. We obtain high collection efficiency, up to 22 kcounts/s optical saturation rates from a single silicon vacancy center, while preserving the single photon emission and the optically induced electron-spin polarization properties. Our study demonstrates silicon carbide as a readily available platform for scalable quantum photonics architecture relying on single photon sources and qubits., Comment: 18 pages, 8 figures

Published
2016
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3. Resonant optical spectroscopy and coherent control of Cr4+ spin ensembles in SiC and GaN

Author

Koehl, William F., Diler, Berk, Whiteley, Samuel J., Bourassa, Alexandre, Son, N. T., Janzén, Erik, and Awschalom, David D.

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics, Condensed Matter - Materials Science, Quantum Physics
Abstract

Spins bound to point defects are increasingly viewed as an important resource for solid-state implementations of quantum information technologies. In particular, there is a growing interest in the identification of new classes of defect spin that can be controlled optically. Here we demonstrate ensemble optical spin polarization and optically detected magnetic resonance (ODMR) of the S = 1 electronic ground state of chromium (Cr4+) impurities in silicon carbide (SiC) and gallium nitride (GaN). Spin polarization is made possible by the narrow optical linewidths of these ensembles (< 8.5 GHz), which are similar in magnitude to the ground state zero-field spin splitting energies of the ions at liquid helium temperatures. We therefore are able to optically resolve individual spin sublevels within the ensembles at low magnetic fields using resonant excitation from a cavity-stabilized, narrow-linewidth laser. Additionally, these near-infrared emitters possess exceptionally weak phonon sidebands, ensuring that > 73% of the overall optical emission is contained with the defects zero-phonon lines. These characteristics make this semiconductor-based, transition metal impurity system a promising target for further study in the ongoing effort to integrate optically active quantum states within common optoelectronic materials., Comment: 13 pages, 4 figures

Published
2016
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4. Vector magnetometry using silicon vacancies in 4H-SiC at ambient conditions

Author

Niethammer, Matthias, Widmann, Matthias, Lee, Sang-Yun, Stenberg, Pontus, Kordina, Olof, Ohshima, Takeshi, Son, Nguyen Tien, Janzén, Erik, and Wrachtrup, Jörg

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics
Abstract

Point defects in solids promise precise measurements of various quantities. Especially magnetic field sensing using the spin of point defects has been of great interest recently. When optical readout of spin states is used, point defects achieve optical magnetic imaging with high spatial resolution at ambient conditions. Here, we demonstrate that genuine optical vector magnetometry can be realized using the silicon vacancy in SiC, which has an uncommon S=3/2 spin. To this end, we develop and experimentally test sensing protocols based on a reference field approach combined with multi frequency spin excitation. Our works suggest that the silicon vacancy in an industry-friendly platform, SiC, has potential for various magnetometry applications at ambient conditions.

Published
2016
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5. Theoretical model of the dynamic spin polarization of nuclei coupled to paramagnetic point defects in diamond and silicon carbide

Author

Ivády, Viktor, Szász, Krisztián, Falk, Abram L., Klimov, Paul V., Christle, David J., Janzén, Erik, Abrikosov, Igor A., Awschalom, David D., and Gali, Adam

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics, Condensed Matter - Other Condensed Matter
Abstract

Dynamic nuclear spin polarization (DNP) mediated by paramagnetic point defects in semiconductors is a key resource for both initializing nuclear quantum memories and producing nuclear hyperpolarization. DNP is therefore an important process in the field of quantum-information processing, sensitivity-enhanced nuclear magnetic resonance, and nuclear-spin-based spintronics. DNP based on optical pumping of point defects has been demonstrated by using the electron spin of nitrogen-vacancy (NV) center in diamond, and more recently, by using divacancy and related defect spins in hexagonal silicon carbide (SiC). Here, we describe a general model for these optical DNP processes that allows the effects of many microscopic processes to be integrated. Applying this theory, we gain a deeper insight into dynamic nuclear spin polarization and the physics of diamond and SiC defects. Our results are in good agreement with experimental observations and provide a detailed and unified understanding. In particular, our findings show that the defects' electron spin coherence times and excited state lifetimes are crucial factors in the entire DNP process.

Published
2015
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6. Coherent control of single spins in silicon carbide at room temperature

Author

Widmann, Matthias, Lee, Sang-Yun, Rendler, Torsten, Son, Nguyen Tien, Fedder, Helmut, Paik, Seoyoung, Yang, Li-Ping, Zhao, Nan, Yang, Sen, Booker, Ian, Denisenko, Andrej, Jamali, Mohammad, Momenzadeh, Seyed Ali, Gerhardt, Ilja, Ohshima, Takeshi, Gali, Adam, Janzén, Erik, and Wrachtrup, Jörg

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics
Abstract

Spins in solids are cornerstone elements of quantum spintronics. Leading contenders such as defects in diamond, or individual phosphorous dopants in silicon have shown spectacular progress but either miss established nanotechnology or an efficient spin-photon interface. Silicon carbide (SiC) combines the strength of both systems: It has a large bandgap with deep defects and benefits from mature fabrication techniques. Here we report the characterization of photoluminescence and optical spin polarization from single silicon vacancies in SiC, and demonstrate that single spins can be addressed at room temperature. We show coherent control of a single defect spin and find long spin coherence time under ambient conditions. Our study provides evidence that SiC is a promising system for atomic-scale spintronics and quantum technology.

Published
2014
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7. Isolated electron spins in silicon carbide with millisecond-coherence times

Author

Christle, David J., Falk, Abram L., Andrich, Paolo, Klimov, Paul V., Hassan, Jawad ul, Son, Nguyen T., Janzén, Erik, Ohshima, Takeshi, and Awschalom, David D.

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics, Condensed Matter - Materials Science, Quantum Physics
Abstract

The elimination of defects from SiC has facilitated its move to the forefront of the optoelectronics and power-electronics industries. Nonetheless, because the electronic states of SiC defects can have sharp optical and spin transitions, they are increasingly recognized as a valuable resource for quantum-information and nanoscale-sensing applications. Here, we show that individual electron spin states in highly purified monocrystalline 4H-SiC can be isolated and coherently controlled. Bound to neutral divacancy defects, these states exhibit exceptionally long ensemble Hahn-echo spin coherence, exceeding 1 ms. Coherent control of single spins in a material amenable to advanced growth and microfabrication techniques is an exciting route to wafer-scale quantum technologies., Comment: 11 pages, 3 figures

Published
2014
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8. Theoretical unification of hybrid-DFT and DFT+U methods for the treatment of localized orbitals

Author

Ivády, Viktor, Armiento, Rickard, Szász, Krisztián, Janzén, Erik, Gali, Adam, and Abrikosov, Igor A.

Subjects
Condensed Matter - Strongly Correlated Electrons
Abstract

We formulate the on-site occupation dependent exchange correlation energy and effective potential of hybrid functionals for localized states and connect them to the on-site correction term of the DFT+U method. Our derivation provides a theoretical justification for adding a DFT+U-like onsite potential in hybrid DFT calculations to resolve issues caused by overscreening of localized states. The resulting scheme, hybrid- DFT+Vw, is tested for chromium impurity in wurtzite AlN and vanadium impurity in 4H-SiC, which are paradigm examples of systems with different degree of localization between host and impurity orbitals.

Published
2014
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9. Theory of Spin-Conserving Excitation of the $N-V^-$ Center in Diamond

Author

Gali, Adam, Janzén, Erik, Deák, Péter, Kresse, Georg, and Kaxiras, Efthimios

Subjects
Condensed Matter - Materials Science
Abstract

The negatively charged nitrogen-vacancy defect ($N-V^-$ center) in diamond is an important atomic-scale structure that can be used as a qubit in quantum computing and as a marker in biomedical applications. Its usefulness relies on the ability to optically excite electrons between well-defined gap states, which requires clear and detailed understanding of the relevant states and excitation processes. Here we show that by using hybrid density-functional-theory calculations in a large supercell we can reproduce the zero-phonon line and the Stokes and anti-Stokes shifts, yielding a complete picture of the spin-conserving excitation of this defect., Comment: 4 pages, 2 figures

Published
2009
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33. Thick Epilayer for Power Devices

Author

Henry, Anne, primary, Hassan, Jawad, additional, Pedersen, Henke, additional, Beyer, Franziska C., additional, Bergman, J.Peder, additional, Andersson, S., additional, Janzén, Erik, additional, and Godignon, Phillippe, additional

Published
2007
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42. Shallow P Donors in 3C-, 4H- and 6H-SiC

Author

Isoya, J., primary, Katagiri, Masayuki, additional, Umeda, T., additional, Son, N.T., additional, Henry, Anne, additional, Gali, A., additional, Morishita, Norio, additional, Ohshima, Takeshi, additional, Itoh, Hisayoshi, additional, and Janzén, Erik, additional

Published
2006
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46. Techniques for Minimizing the Basal Plane Dislocation Density in SiC Epilayers to Reduce Vf Drift in SiC Bipolar Power Devices

Author

Sumakeris, Joseph J., primary, Bergman, J.Peder, additional, Das, Mrinal K., additional, Hallin, Christer, additional, Hull, Brett A., additional, Janzén, Erik, additional, Lendenmann, H., additional, O'Loughlin, Michael J., additional, Paisley, Michael J., additional, Ha, Seo Young, additional, Skowronski, Marek, additional, Palmour, John, additional, and Carter Jr., Calvin H., additional

Published
2006
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49. Divacancy Model for P6/P7 Centers in 4H- and 6H-SiC

Author

Son, N.T., primary, Umeda, T., additional, Isoya, J., additional, Gali, A., additional, Bockstedte, M., additional, Magnusson, Bjorn, additional, Ellison, Alexsandre, additional, Morishita, Norio, additional, Ohshima, Takeshi, additional, Itoh, Hisayoshi, additional, and Janzén, Erik, additional

Published
2006
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