Gunther Springholz
Gunther Springholz
Professor for Physics, Johannes Kepler University of Linz, Austria
Verified email at - Homepage
Cited by
Cited by
Self-organized growth of three-dimensional quantum-dot crystals with fcc-like stacking and a tunable lattice constant
G Springholz, V Holy, M Pinczolits, G Bauer
Science 282 (5389), 734-737, 1998
Strain induced vertical and lateral correlations in quantum dot superlattices
V Holý, G Springholz, M Pinczolits, G Bauer
Physical Review Letters 83 (2), 356, 1999
Large magnetic gap at the Dirac point in Bi2Te3/MnBi2Te4 heterostructures
EDL Rienks, S Wimmer, J Sánchez-Barriga, O Caha, PS Mandal, ...
Nature 576 (7787), 423-428, 2019
Multiple-stable anisotropic magnetoresistance memory in antiferromagnetic MnTe
D Kriegner, K Výborný, K Olejník, H Reichlová, V Novák, X Marti, ...
Nature communications 7 (1), 11623, 2016
Tuning of vertical and lateral correlations in self-organized PbSe/Pb 1− x Eu x Te quantum dot superlattices
G Springholz, M Pinczolits, P Mayer, V Holy, G Bauer, HH Kang, ...
Physical review letters 84 (20), 4669, 2000
Auger recombination dynamics of lead salts under picosecond free-electron-laser excitation
PC Findlay, CR Pidgeon, R Kotitschke, A Hollingworth, BN Murdin, ...
Physical Review B 58 (19), 12908, 1998
Photoemission of with Circularly Polarized Light: Probe of Spin Polarization or Means for Spin Manipulation?
J Sánchez-Barriga, A Varykhalov, J Braun, SY Xu, N Alidoust, O Kornilov, ...
Physical Review X 4 (1), 011046, 2014
Negligible Surface Reactivity of Topological Insulators Bi2Se3 and Bi2Te3 towards Oxygen and Water
LV Yashina, J Sánchez-Barriga, MR Scholz, AA Volykhov, AP Sirotina, ...
Acs Nano 7 (6), 5181-5191, 2013
Nonmagnetic band gap at the Dirac point of the magnetic topological insulator (Bi1−xMnx)2Se3
J Sánchez-Barriga, A Varykhalov, G Springholz, H Steiner, ...
Nature communications 7 (1), 10559, 2016
Direct formation of self-assembled quantum dots under tensile strain by heteroepitaxy of PbSe on PbTe (111)
M Pinczolits, G Springholz, G Bauer
Applied physics letters 73 (2), 250-252, 1998
Kinetic growth instabilities on vicinal Si (001) surfaces
C Schelling, G Springholz, F Schäffler
Physical review letters 83 (5), 995, 1999
Centrosymmetric PbTe∕ CdTe quantum dots coherently embedded by epitaxial precipitation
W Heiss, H Groiss, E Kaufmann, G Hesser, M Böberl, G Springholz, ...
Applied physics letters 88 (19), 2006
Electronic and optical properties of PbTe/Pb 1− x Eu x Te multiple-quantum-well structures
S Yuan, G Springholz, G Bauer, M Kriechbaum
Physical review B 49 (8), 5476, 1994
On the microscopic origin of the kinetic step bunching instability on vicinal Si (001)
J Mysliveček, C Schelling, F Schäffler, G Springholz, P Šmilauer, J Krug, ...
Surface science 520 (3), 193-206, 2002
Evolution of hexagonal lateral ordering in strain-symmetrized quantum-dot superlattices
M Pinczolits, G Springholz, G Bauer
Physical Review B 60 (16), 11524, 1999
Nanoscale dislocation patterning in PbTe/PbSe (001) lattice-mismatched heteroepitaxy
G Springholz, K Wiesauer
Physical review letters 88 (1), 015507, 2001
Dispersion of absorption and refractive index of PbTe and Pb 1− x Eu x Te (x< 0.05) below and above the fundamental gap
S Yuan, H Krenn, G Springholz, G Bauer
Physical Review B 47 (12), 7213, 1993
Mn‐Rich MnSb2Te4: A Topological Insulator with Magnetic Gap Closing at High Curie Temperatures of 45–50 K
S Wimmer, J Sánchez‐Barriga, P Küppers, A Ney, E Schierle, F Freyse, ...
Advanced Materials 33 (42), 2102935, 2021
Entanglement and manipulation of the magnetic and spin–orbit order in multiferroic Rashba semiconductors
J Krempaský, S Muff, F Bisti, M Fanciulli, H Volfová, AP Weber, N Pilet, ...
Nature communications 7 (1), 13071, 2016
Spiral growth and threading dislocations for molecular beam epitaxy of PbTe on BaF2 (111) studied by scanning tunneling microscopy
G Springholz, AY Ueta, N Frank, G Bauer
Applied physics letters 69 (19), 2822-2824, 1996
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