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Univ. Prof. Dr. Hartmut Abele

Tel.: +43-1-58801-141202 
Fax: +43-1-58801-14199

TU Wien - Atominstitut
Stadionallee 2
1020 Wien






A. N. Ivanov and M. Pitschmann, 
Nonrelativistic approximation of the Dirac equation for slow fermionsin static metric spacetimes,
Phys. Rev. D90, 045040 (2014)

T. Jenke, G. Cronenberg, J. Burgdörfer, L. A. Chizhova, P. Geltenbort, A. N. Ivanov, T. Lauer, T. Lins, S. Rotter, H. Saul, U. Schmidt and H. Abele, 
Gravity Resonance Spectroscopy Constrains Dark Energy and Dark Matter Scenarios,
PRL 112, 151105 (2014)

L. A. Chizhova, S. Rotter, T. Jenke, G. Cronenberg, P. Geltenbort, G. Wautischer, H. Filter, H. Abele, and J. Burgdörfer, 

Vectorial velocity filter for ultracold neutrons based on a surface-disordered mirror system, 
Phys. Rev. E 89, 032907 (2014) 

T. Jenke, H. Abele, 
Experiments with Gravitationally-bound Ultracold Neutrons at the European Spallation Source ESS, 
Physics Procedia 51 (2014) 67 – 72


A. N. Ivanov, R. Höllwieser, T. Jenke, M. Wellenzohn, H. Abele,
The influence of the chameleon field potential on transition frequencies of gravitationally bound quantum states of ultra-cold neutrons,
Phys. Rev. D87, 105013 (2013),

T. Jenke, G. Cronenberg, A.N. Ivanov, H. Saul und H. Abele, P. Geltenbort (Institut Laue-Langevin, Grenoble, Frankreich), T. Lauer (FRM II und TU München, Garching, Deutschland), T. Lins (TU München, Deutschland), U. Schmidt (Universität Heidelberg, Deutschland), 
Improving our knowledge on dark matter and dark energy using ultra-cold neutrons,
Scientific Highlights Article of the Annual Report 2012, Institute Laue-Langevin  

Tobias Jenke, Gunther Cronenberg, Hanno Filter, Peter Geltenbort, Martin Klein, Thorsten Lauer, Kevin Mitsch, Heiko Saul, Dominik Seiler, David Stadler, Martin Thalhammer, Hartmut Abele, 
Ultracold neutron detectors based on boron-10 converters used in the qBounce experiments,
Nucl. Instr. Meth. A 732 (2013) 1-8


T. Jenke, G. Cronenberg, P. Geltenbort, A.N. Ivanov, T. Lauer, T. Lins, U. Schmidt, H. Saul, H. Abele, 
A quantized frequency reference in the short-ranged gravity potential and its application for dark matter and dark energy searches,
arXiv:1208.3875, 2012

T. Jenke, P. Geltenbort and H. Abele,
Spectroscopy of Gravity,
Scientific Highlights Article of the Annual Report 2011, Institute Laue-Langevin

G. Cronenberg, K. Durstberger-Rennhofer, P. Geltenbort, T. Jenke, H. Lemmel and H. Abele,
Methods and applications of gravity resonance spectroscopy within the qBounce experiment,
J. Phys.: Conf. Ser. 340 012045 doi:10.1088/1742-6596/340/1/012045


H. Abele, G.Cronenberg, P.Geltenbort, T.Jenke, T.Lins, H. Saul, 
qBounce, the Quantum Bouncing Ball Experiment,
Physics Procedia Volume 17 (2011)

H. Abele, 
Gravitation unter dem Mikroskop,
Spektrum der Wissenschaft, Sep 2011 S.19ff

K.  Durstberger-Rennhofer, T. Jenke, H.  Abele, 
Probing the neutron’s electric neutrality with Ramsey spectroscopy of gravitational quantum states of ultracold neutrons,
Phys. Rev.  D 84, 036004 (2011)

T. Jenke, P. Geltenbort, H.  Lemmel, H.  Abele, 
Realization of a gravity-resonance-spectroscopy technique,
Nature Physics 7, 468–472 (2011)


H. Abele, T.Jenke,  H.Leeb, J.Schmiedmayer,  
Ramsey’s method of separated oscillating fields and its application to gravitationally induced quantum phase shifts,
Phys. Rev. D 81, 065019 (2010)


H. Abele, T. Jenke, D. Stadler, P. Geltenbort,
QuBounce: the dynamics of ultra-cold neutrons falling in the gravity potential of the Earth,
Nuclear Physics A, Volume 827, Issues 1-4 (2009)

Tobias Jenke, David Stadler, Hartmut Abele, Peter Geltenbort,
Q-BOUNCE— Experiments with quantum bouncing ultracold neutrons,
Nuclear Instru- ments and Methods in Physics Research A, Volume 611, Issues 2-3, (2009)