Yakov Matyushkin
- Doctoral Student:HSE Tikhonov Moscow Institute of Electronics and Mathematics (MIEM HSE) / Quantum Optics and Telecommunications Joint Department with Skontel
- Research Assistant:HSE Tikhonov Moscow Institute of Electronics and Mathematics (MIEM HSE) / School of Electronic Engineering
- Yakov Matyushkin has been at HSE University since 2018.
Postgraduate Studies
4th year of study
Approved topic of thesis: Experimental study of the band structure of single carbon nanotubes in nonequilibrium systems
Academic Supervisor: Goltsman, Grigory
Publications5
- Article Yakov Matyushkin, Sergey D., Maxim M., Vsevolod B., Natalia K., Maxim R., Elena D. O., Georgy F., Ilya G., Valentin K., Sergey G. Helicity-Sensitive Plasmonic Terahertz Interferometer // Nano Letters. 2020. Vol. 20. No. 10. P. 7296-7303. doi
- Article Matyushkin Y., Kaurova N., Voronov B., Goltsman G., Fedorov G. On chip carbon nanotube tunneling spectroscopy // Fullerenes Nanotubes and Carbon Nanostructures. 2020. Vol. 28. No. 1. P. 50-53. doi
- Article Y. Matyushkin, Danilov S., Moskotin M., Fedorov G., Bochin A., Gorbenko I., Kachorovskii V., Ganichev S. Carbon nanotubes for polarization sensitive terahertz plasmonic interferometry // Optics Express. 2021. Vol. 29. No. 23. P. 37189-37199. doi
- Article Shabanov A., Moskotin M., Belosevich V., Matyushkin Y., Rybin M., Fedorov G., Svintsov D. Optimal asymmetry of transistor-based terahertz detectors // Applied Physics Letters. 2021. Vol. 119. No. 16. Article 163505. doi
- Article Matyushkin Y., Moskotin M., Rogov Y., Kuntsevich A., Goltsman G., Fedorov G. Single-particle states spectroscopy in individual carbon nanotubes with an aid of tunneling contacts // Applied Physics Letters. 2022. Vol. 120. No. 8. Article 083104. doi
Tunnelling Contact Helps to Study Electron Structure of Carbon Nanotubes
Russian physicists have demonstrated how tunnelling contacts can be used for single-particle states spectroscopy in carbon nanotubes. The proposed technology of tunnelling contact fabrication and the spectroscopic method will help measure the exact nanotube bandgap value, which is the key characteristic required for design of any nanotubes-based electronic devices. Applied Physics Letters publishes the result of the study.