Dr. Dmitry Yakovlev, PSL Research University, ParisTech (Paris Institute of Technology), France
Dr. Dmitry Yakovlev, currently a Postdoctoral Researcher at École supérieure de physique et de chimie industrielles de la Ville de Paris (ESPCI), specializes in condensed matter physics, focusing on superconducting quantum phenomena. With a Ph.D. from Moscow Institute of Physics and Technology (MIPT), his expertise spans nanofabrication, quantum computing, and Josephson junctions. Dmitry has contributed to advancements in single photon detectors and hybrid superconducting systems, as evidenced by his publications in leading journals. Passionate about teaching and research, he engages in international conferences and enjoys football, skiing, and diving. 🧬🔬
Publication profile
Orcid
👨🔬 Education
Dmitry Yakovlev pursued his academic journey at Moscow Institute of Physics and Technology (MIPT), achieving a B.S. and M.S. in Applied Mathematics and Physics, followed by a Ph.D. in Applied Engineering and Physics. Currently, he is a postdoctoral researcher at Paris Sciences et Lettres University, specializing in Solid State Physics
👨💼 Work Experience
He has contributed significantly as a researcher at institutions like the Russian Quantum Center and Moscow Institute of Physics and Technology, focusing on superconducting quantum phenomena and topological insulators.
Research Focus
Dmitry S. Yakovlev is a prominent researcher specializing in hybrid superconducting systems and topological insulators. His work focuses on experimental studies and theoretical advancements in quantum phenomena, particularly in devices like superconducting junctions and nanocrystals of Bi2Te2.3Se0.7. Yakovlev’s contributions extend to resonant oscillations of Josephson currents and anomalous microwave responses in topological superconductors. His research, published in leading journals such as Advanced Quantum Technologies and Symmetry, underscores his expertise in controlling non-classical field states using solid-state qubits. 🧪 His interdisciplinary approach merges physics and materials science to advance quantum technologies, making significant strides in the field of nanoelectronics and superconductivity.
Publication Top Notes
- Solid‐State Qubit as an On‐Chip Controller for Non‐Classical Field States
- Published in 2024, cited by Advanced Quantum Technologies.
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- Experimental study of the quantum phenomena in hybrid superconducting systems based on topological insulators
- Published in 2024, cited by Higher School of Economics (HSE).
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- Multilayer Bolometric Structures for Efficient Wideband Communication Signal Reception
- Published in 2024, cited by Nanomaterials.
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- Anomalous microwave response in the dissipative regime of topological superconducting devices based on Bi<sub>2</sub>Te<sub>2.3</sub>Se<sub>0.7</sub>
- Published in 2023, cited by ArXiv.
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- Controlling I-V Hysteresis in Al/Pt Bilayer Symmetric SQUIDs at Millikelvin Temperatures
- Published in 2023, cited by Symmetry.
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- Resonant Oscillations of Josephson Current in Nb-Bi<sub>2</sub>Te<sub>2.3</sub>Se<sub>0.7</sub>-Nb Junctions
- Published in 2022, cited by Advanced Quantum Technologies.
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- The Performance of Nonwoven PLLA Scaffolds of Different Thickness for Stem Cells Seeding and Implantation
- Published in 2022, cited by Polymers.
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- Superconductivity in Hierarchical 3D Nanostructured Pb–In Alloys
- Published in 2022, cited by Symmetry.
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- Physical Vapor Deposition Features of Ultrathin Nanocrystals of Bi2(TexSe1–x)3
- Published in 2022, cited by The Journal of Physical Chemistry Letters.
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- Subjective Distance Estimates and Sense of Agency in Robotic Wheelchair Control
- Published in 2022, cited by Applied Sciences.
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