Gábor Széchenyi - ODT Personal data sheet


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Personal data sheet

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personal data approved: 2024. I. 08.

Personal data

name	Gábor Széchenyi
name of institution	Eötvös Loránd University, Budapest
doctoral school	ELTE Doctoral School of Physics (Supervisor Az oktató valamelyik doktori iskolában egy vagy több doktorandusz vagy doktorjelölt munkáját irányítja. )
the share of work in the different doctoral schools.	ELTE Doctoral School of Physics 100%

Contact details
	own web page

Academic title
scientific degree, title	Ph.D.
year degree was obtained	2017
discipline to which degree belongs	physics
institution granting the degree	Eötvös University

Employment
2021 -	Eötvös Loránd University, Budapest university professor or researcher

Thesis topic supervisor

number of doctoral students supervised until now

number of students who fulfilled course requirements

students who obtained their degrees:

present PhD students:

(50%)	Róbert Németh	(PhD)	(2026/08)	DSP2-ELTE
(50%)	Áron Rozgonyi	(PhD)	(2024/08)	DSP2-ELTE

Research
research area	Theoretical condensed matter physics: Quantum bits in solids, optical properties of grahene systems Topological quantum computation
research field in which current research is conducted	physics

Publications

2019

Boross P, Asboth JK, Szechenyi G, Oroszlany L, Palyi A: Poor man's topological quantum gate based on the Su-Schrieffer-Heeger model, PHYSICAL REVIEW B 100: (4) 045414
type of document: Journal paper/Article
number of independent citations: 34
language: English
URL

2018

Szechenyi Gábor, Chirolli L, Palyi A: Impurity-assisted electric control of spin-valley qubits in monolayer MoS2, 2D MATERIALS 5: (3) 035004
type of document: Journal paper/Article
number of independent citations: 36
language: English
URL

2016

Boross P, Széchenyi G, Culcer D, Pályi A: Control of valley dynamics in silicon quantum dots in the presence of an interface step, PHYSICAL REVIEW B 94: (3) 035438
type of document: Journal paper/Article
number of independent citations: 28
language: English
URL

2014

Szechenyi G, Palyi A: Maximal Rabi frequency of an electrically driven spin in a disordered magnetic field, PHYSICAL REVIEW B 89: (11) 115409
type of document: Journal paper/Article
number of independent citations: 19
language: English
URL

2013

Szechenyi G, Palyi A: Current hot spot in the spin-valley blockade in carbon nanotubes, PHYSICAL REVIEW B 88: (23) 235414
type of document: Journal paper/Article
number of independent citations: 6
language: English
URL

Number of independent citations to these publications:

123

Scientometric data

list of publications and citations

number of scientific publications that meet accreditation criteria:

number of scientific publications:

monographs and professional books:

monographs/books in which chapters/sections were contributed:

scientific publications published abroad that meet the accreditation criteria:

publications not in Hungarian, published in Hungary, meeting the accreditation criteria:

number of independent citations to scientific publications and creative works:

250