Dmitry Miserev

Contact

Department of Physics
University of Basel
Klingelbergstrasse 82
CH-4056 Basel, Switzerland
office:4.18

email:view address

tel: +41 61 207 37 57 (office)


Short CV

May 2018 — Present: Georg H. Endress postdoc fellow, University of Basel, Basel, Switzerland with Prof. Daniel Loss and Prof. Jelena Klinovaja
2014 — 2017: PhD, University of New South Wales, Sydney, Australia with Prof. O. P. Sushkov (International Postgraduate Research Scholarship)
2011 — 2013: Master of Sciences, Novosibirsk State University, Novosibirsk, Russia with Prof. M. V. Entin

Publications

Show all abstracts.

1.  Electrical Control of the Zeeman Spin Splitting in Two-Dimensional Hole Systems
E. Marcellina, A. Srinivasan, D. S. Miserev, A. F. Croxall, D. A. Ritchie, I. Farrer, O. P. Sushkov, Dimitrie Culcer, and A. R. Hamilton
Phys. Rev. Lett. 121, 077701 (2018).



2.  Mechanisms for Strong Anisotropy of In-Plane g-Factors in Hole Based Quantum Point Contacts
D. S. Miserev, A. Srinivasan, O. A. Tkachenko, V. A. Tkachenko, I. Farrer, D. A. Ritchie, A. R. Hamilton, and O. P. Sushkov
Phys. Rev. Lett. 119, 116803 (2017).



3.  Detection and Control of Spin-Orbit Interactions in a GaAs Hole Quantum Point Contact
A. Srinivasan, D. S. Miserev, K. L. Hudson, O. Klochan, K. Muraki, Y. Hirayama, D. Reuter, A. D. Wieck, O. P. Sushkov, and A. R. Hamilton
Phys. Rev. Lett. 118, 146801 (2017).



4.  Dimensional reduction of the Luttinger Hamiltonian and g-factors of holes in symmetric two-dimensional semiconductor heterostructures
D. S. Miserev and O. P. Sushkov
Phys. Rev. B 95, 085431 (2017).



5.  Electrical control of the sign of the g factor in a GaAs hole quantum point contact
A. Srinivasan, K. L. Hudson, D. Miserev, L. A. Yeoh, O. Klochan, K. Muraki, Y. Hirayama, O. P. Sushkov, and A. R. Hamilton
Phys. Rev. B 94, 041406(R) (2016).



6.  G-factors of hole bound states in spherically symmetric potentials in cubic semiconductors
D. Miserev and O. Sushkov.
Eur. Phys. J. B 89, 74 (2016)



7.  Analytical Study of Bound States in Graphene Nanoribbons and Carbon Nanotubes: The Variable Phase Method and the Relativistic Levinson Theorem
D. Miserev
JETP 122, 1070 (2016).



8.  Dephasing in Gapless Carbon Nanotubes and Nanostrips and the Suppression of Interference in a Quantum Interferometer Based on Them
D. Miserev and M. V. Entin.
JETP Lett. 99, 410 (2014).



9.  Quantum Mechanics of Graphene with a One-Dimensional Potential
D. Miserev and M. V. Entin.
JETP 115, 694 (2012).