DY

Dmitry Yakovlev

100%
Libre accès
13
Documents
Affiliations actuelles
  • Ecole Superieure de Physique et de Chimie Industrielles de la Ville de Paris (ESPCI Paris)
  • Laboratoire de Physique et d'Etude des Matériaux (UMR 8213) (LPEM)
  • Sorbonne Université (SU)
Identifiants chercheurs
Contact

Présentation

  1. Current project : Development and production of NbN single-photon detectors. Demonstrate the operation of detectors with resolution by the number of photons on the chip. Demonstration of the fast phase modulation mechanism. Demonstration of the high-efficiency interface of the integrated platform with optical fiber.

  2. Development of the superconductor signaling coprocessor for the control system of solid-state (superconductor and semiconductor spin) qubits. This device will be seamlessly integrated into the quantum-classical interface (RSFQ/SFQ) of quantum computers, ushering in a new era of quantum computing. The coprocessor under development is more than just a technological task but a practical solution. It's a single compact, energy-efficient qubit state control/readout device in a cryostat near the quantum processor. This device replaces the bulky and inefficient analog-to-digital equipment traditionally placed on the measurement benches of quantum devices, significantly enhancing the efficiency and performance of quantum systems.

  3. Develop hardware for superconducting quantum processors and simulators. Make single- and two-qubit gates and develop multi-qubit quantum circuits and microwave electronics toolboxes for larger systems. Improving qubits towards better coherence and scalability; (ii) exploring quantum error correction techniques; (iii) developing both dynamic and adiabatic quantum simulators; (iv) scaling up gate-based quantum processors. The developed multi-qubit circuits will be targeted toward simulation tasks in quantum chemistry, optimization, and machine learning. https://onlinelibrary.wiley.com/doi/full/10.1002/qute.202400141

  4. Research of the transport in topological Josephson junctions, 4π- periodic effect, Majorana states signature and new spin transport effects at 10 mK temperature is poised to make a significant impact. We are striving to understand Topological behavior and synthesize Topological insulator material for quantum computing applications, paving the way for exciting advancements in the field. https://www.nature.com/articles/s43246-020-0037-y

Domaines de recherche

Supraconductivité [cond-mat.supr-con]

Compétences

Quantum computing Low Temperature Experiment Electron Lithography

Publications

Publications

Image document

Nernst effect and its thickness dependence in superconducting NbN films

Thomas Bouteiller , Arthur Marguerite , Ramzy Daou , Dmitry Yakovlev , Stéphane Pons et al.
Physical Review Materials, 2025, 9 (9), pp.094807. ⟨10.1103/sl61-lzyl⟩
Article dans une revue hal-05347032 v1
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Enhancing Signal Purity in Josephson Structure Measurements

Ivan A Nazhestkin , Georgy I Gubochkin , Jonathan Shvartzberg , Sai‐prasad M Rajam , Sergei V Egorov et al.
Advanced Physics Research, 2025, ⟨10.1002/apxr.202500032⟩
Article dans une revue hal-05225541 v1
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Flip‐Chip Integration of the Superconducting Quantum‐Classical Circuits: Coupling Types

Rustam D Yusupov , Roman S Tikhonov , Sergey A Lisitsyn , Ivan A Nazhestkin , Mikhail M Khrenov et al.
Advanced Quantum Technologies, 2025, ⟨10.1002/qute.202500212⟩
Article dans une revue hal-05225535 v1
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All-Josephson junction logic cells and bio-inspired neuron based on 0−0−π junction inductorless blocks

Anastasia A Maksimovskaya , Vsevolod I Ruzhickiy , Nikolay V Klenov , Andrey E Schegolev , Sergey V Bakurskiy et al.
Chaos, Solitons & Fractals, 2025, 193, ⟨10.1016/j.chaos.2025.116074⟩
Article dans une revue hal-04952555 v1
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High Kinetic Inductance in Platinum‐Coated Aluminum Nanobridge Interferometers

Ivan A Nazhestkin , Sergey V Bakurskiy , Alex A Neilo , Irina E Tarasova , Nidzhat G Ismailov et al.
Advanced Engineering Materials, 2025, ⟨10.1002/adem.202402385⟩
Article dans une revue hal-04952560 v1
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Topological Insulator Nanowires Made by AFM Nanopatterning: Fabrication Process and Ultra Low‐Temperature Transport Properties

Dmitry Yakovlev , Aleksei Frolov , Ivan Nazhestkin , Alexei Temiryazev , Andrey Orlov et al.
Advanced Physics Research, 2024, ⟨10.1002/apxr.202400108⟩
Article dans une revue hal-04796646 v1
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Multilayer Bolometric Structures for Efficient Wideband Communication Signal Reception

Anna Bogatskaya , Nikolay Klenov , Alexander Popov , Andrey Schegolev , Pavel Titovets et al.
Nanomaterials, 2024, 14 (2), pp.141. ⟨10.3390/nano14020141⟩
Article dans une revue hal-04541679 v1
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Solid‐State Qubit as an On‐Chip Controller for Non‐Classical Field States

Roman Zakharov , Olga Tikhonova , Nikolay Klenov , Igor Soloviev , Vladimir Antonov et al.
Advanced Quantum Technologies, 2024, ⟨10.1002/qute.202400141⟩
Article dans une revue hal-04796650 v1
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Controlling I-V Hysteresis in Al/Pt Bilayer Symmetric SQUIDs at Millikelvin Temperatures

Dmitry Yakovlev , Ivan Nazhestkin , Nidzhat Ismailov , Sergei Egorov , Vladimir Antonov et al.
Symmetry, 2023, 15 (2), pp.550. ⟨10.3390/sym15020550⟩
Article dans une revue hal-04541681 v1

Physical Vapor Deposition Features of Ultrathin Nanocrystals of Bi 2 (Te x Se 1– x ) 3

Dmitry Yakovlev , Dmitry Lvov , Olga Emelyanova , Pave Dzhumaev , Igor Shchetinin et al.
Journal of Physical Chemistry Letters, 2022, 13 (39), pp.9221-9231. ⟨10.1021/acs.jpclett.2c02664⟩
Article dans une revue hal-04020778 v1

The Performance of Nonwoven PLLA Scaffolds of Different Thickness for Stem Cells Seeding and Implantation

Timur Kh. Tenchurin , Alla Rodina , Vladimir Saprykin , Lada Gorshkova , Alexey Mikhutkin et al.
Polymers, 2022, 14 (20), pp.4352. ⟨10.3390/polym14204352⟩
Article dans une revue hal-04796664 v1

Subjective Distance Estimates and Sense of Agency in Robotic Wheelchair Control

Artem Yashin , Darisy Zhao , Anastasiya Stolyarova , Anton Moscowsky , Dmitry Yakovlev et al.
Applied Sciences, 2022, 12 (12), pp.6217. ⟨10.3390/app12126217⟩
Article dans une revue hal-04796667 v1

Josephson current mediated by ballistic topological states in Bi2Te2.3Se0.7 single nanocrystals

Vasily Stolyarov , Dmitry Yakovlev , Sergei Kozlov , Olga Skryabina , Dmitry Lvov et al.
Communications Materials, 2020, 1 (1), pp.38. ⟨10.1038/s43246-020-0037-y⟩
Article dans une revue hal-04020813 v1