2023 - Research.com Physics in Germany Leader Award
His scientific interests lie mostly in Diamond, Condensed matter physics, Quantum, Spins and Atomic physics. Fedor Jelezko combines subjects such as Nanotechnology, Fluorescence, Photon, Optoelectronics and Vacancy defect with his study of Diamond. His Condensed matter physics research incorporates elements of Quantum entanglement, Quantum simulator and Qubit.
Fedor Jelezko studies Quantum, namely Quantum information science. His Spins research is multidisciplinary, incorporating elements of Quantum register, Open quantum system, Spin and Magnetic field. Fedor Jelezko has included themes like Superconductivity, Resonance and Quantum information processing in his Atomic physics study.
Fedor Jelezko mainly focuses on Diamond, Optoelectronics, Spins, Atomic physics and Condensed matter physics. His Diamond research includes themes of Nanotechnology, Quantum, Qubit, Photon and Vacancy defect. The study incorporates disciplines such as Quantum information and Quantum entanglement in addition to Qubit.
Fedor Jelezko has researched Spins in several fields, including Quantum computer, Electron, Spin and Magnetic field. His Atomic physics research includes elements of Spectroscopy and Excitation. His Condensed matter physics research integrates issues from Electron paramagnetic resonance and Coherence.
His primary areas of investigation include Diamond, Optoelectronics, Quantum sensor, Quantum and Magnetometer. His research integrates issues of Qubit, Spectral line, Spins, Vacancy defect and Spin-½ in his study of Diamond. His work carried out in the field of Quantum sensor brings together such families of science as Coherence time, Quantum information science and Polarization.
His Quantum study combines topics from a wide range of disciplines, such as Topology and Optics, Photon. His Magnetometer research is multidisciplinary, incorporating perspectives in Microfluidics, Nitrogen-vacancy center and Drift velocity. The Magnetic field study combines topics in areas such as Field, Condensed matter physics, Spin and Sensitivity.
His scientific interests lie mostly in Diamond, Quantum sensor, Quantum, Optoelectronics and Nanodiamond. His Diamond study incorporates themes from Quantum measurement, Qubit, Magnetometer, Magnetic field and Vacancy defect. His Quantum sensor research focuses on Coherence time and how it relates to Dynamical decoupling, Order of magnitude, Spin and Topology.
Fedor Jelezko combines subjects such as Condensed matter physics and Tensor with his study of Quantum. His Optoelectronics study combines topics in areas such as Ion implantation and Solid-state laser. His studies in Nanodiamond integrate themes in fields like Nanotechnology, Molecule and Fluorescence.
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Thaddeus D. Ladd;Fedor Jelezko;Raymond Laflamme;Yasunobu Nakamura.
The nitrogen-vacancy colour centre in diamond
Marcus W. Doherty;Marcus W. Doherty;Neil B. Manson;Paul Delaney;Paul Delaney;Fedor Jelezko.
Physics Reports (2013)
Ultralong spin coherence time in isotopically engineered diamond
Gopalakrishnan Balasubramanian;Philipp Neumann;Daniel Twitchen;Matthew Markham.
Nature Materials (2009)
Nanoscale imaging magnetometry with diamond spins under ambient conditions
Gopalakrishnan Balasubramanian;I. Y. Chan;I. Y. Chan;Roman Kolesov;Mohannad Al-Hmoud.
Quantum Register Based on Individual Electronic and Nuclear Spin Qubits in Diamond
M. V. Gurudev Dutt;M. V. Gurudev Dutt;L. Childress;L. Childress;L. Jiang;L. Jiang;E. Togan;E. Togan.
Coherent dynamics of coupled electron and nuclear spin qubits in diamond.
L. Childress;L. Childress;M. V. Gurudev Dutt;M. V. Gurudev Dutt;J. M. Taylor;J. M. Taylor;A. S. Zibrov;A. S. Zibrov.
Observation of Coherent Oscillations in a Single Electron Spin
F. Jelezko;T. Gaebel;I. Popa;A. Gruber.
Physical Review Letters (2004)
Electric-field sensing using single diamond spins
F. Dolde;H. Fedder;M. W. Doherty;T. Nöbauer.
Nature Physics (2011)
Single defect centres in diamond: A review
F. Jelezko;J. Wrachtrup.
Physica Status Solidi (a) (2006)
Observation of coherent oscillation of a single nuclear spin and realization of a two-qubit conditional quantum gate.
F. Jelezko;T. Gaebel;I. Popa;M. Domhan.
Physical Review Letters (2004)
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