Publications

 

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Efficiency and rate capability studies of the time-of-flight detector for isochronous mass measurements of stored short-lived nuclei with the FRS-ESR facility,
N. Kuzminchuk-Feuerstein et al.,
Nucl. Instrum. Methods in Physics Research A821 (2016) 160–168

 

Untersuchungen zur longitudinalen Ortsauflösung von Röhrchendetektoren,
M. Träger,
Diplomarbeit, Westsächsische Hochschule Zwickau (FH) (2005)

 

Tumor Therapy with Heavy Ions at GSI
H. Stelzer for the Heavy Ion Therapy Collaboration,
5th Int. Conference on Advanced Technology and Particle   Physics, Como, October 1996, Nucl. Phys. B (Proc. Suppl.) 61B (1998) 650-657

 

Position sensitive detectors in heavy-ion physics (at GSI)
Hans Sann,
NIM A 392 (1997) 433-446

 

Preliminary measurements of SIS 18 beam parameters
M. Steiner, K. Blasche,H.-G. Clerc, H.Eickhoff, B. Franczak, H. Geissel, G. Münzenberg, 
K.H. Schmidt, H. Stelzer and K. Sümmerer,  NIM A312 (1992) 420-424

 

CAMDA - a PC-based data acquisition system
Herbert Stelzer,
NIM A310 (1991) 562-564

 

Gas Filled Heavy Ion Detectors
H. Stelzer in 'Detectors in Heavy-Ion Reactions, edited by W. von Oertzen in 'Lecture Notes in Physics- 178', Springer Verlag (1983),
edited by H. Araki, J. Ehlers, K. Hepp, R. Kippenhahn, H.A. Weidenmüller and J. Zittartz

 

Detectors for Heavy Ions (Gas Filled Detectors)
H. Stelzer in 'Experimental Methodes in Heavy Ion Physics', edited by K. Bethge in 'Lecture Notes in Physics- 83', Springer Verlag (1978),
edited by J. Ehlers, K. Hepp, R. Kippenhahn, H.A. Weidenmüller and J. Zittartz

 

Time-of-Flight measurements with a detector using a liquid Cherenkov radiator-prototype of a possible TOF detector for the Super-FRS at FAIR,
N. Kuzminchuk-Feuerstein et al.,
Nucl. Instrum. Methods A 923 (2019) 34-37

 

First beam test of a liquid Cherenkov detector prototype for a future TOF measurements at the Super-FRS
N.Kuzminchuk-Feuerstein et al.,
Nucl. Instrum. Methods A866 (2017) 207-212

 

The scintillation-detector equipment of the GSI projectile-fragment separator,
B. Voss et al.,
Nucl. Instrum. Methods in Physics Research A 364 (1995) 150-158

Charge carrier trapping by dislocations in single crystal diamond,
M. Schreck, P. Ščajev, M. Träger, M. Mayr, T. Grünwald, M. Fischer, S. Gsell,
Journal of Applied Physics 127, 125102 (2020)

 

Long-term exposure of a polycrystalline diamond detector irradiated by 62 MeV/nucleon carbon beams,
S. Schlemme, M. Kiš, C. Nociforo, F. Schirru, A. Kratz, J. Enders, B. Szczepanczyk, M. Träger, R. Visinka,
Diamond and Related Materials Volume 99, November 2019, 107536

 

Progress in detector properties of heteroepitaxial diamond grown by chemical vapor deposition on Ir/YSZ/Si(001) wafers,
E. Berdermann et al.,
Diamond & Related Materials 97 (2019) 107420

 

Chemical-vapor deposited ultra-fast diamond detectors for temporal measurements of ion bunches,
D. Jahn et al.,
Review of Scientific Instruments 89, 093304 (2018)

 

Development of large area diamond detectors for time-of-flight measurements of relativistic heavy ions for the super-FRS ,
F. Schirru, C. Nociforo, M Kiš, M. Ciobanu, J. Frühauf, A. Kratz, N. Kurz, B. Szczepanczyk, M. Träger and R. Visinka,
J. Phys. D: Appl. Phys. 49 (2016) 215105

 

Simulations and Test Results of Large Area Continuous Position Sensitive Diamond Detectors,
M. Ciobanu et al.,
Diamond & Related Materials 65 (2016) 115–124

 

Development of fast diamond detectors for temporal profile measurements of short, intense ion bunches,
D. Jahn,
Master Thesis, TU Darmstadt (2015)
 

Radiation damage in single crystal CVD diamond material investigated with a high current relativistic 197Au beam,
J. Pietraszko, T. Galatyuk, V.Grilj, W.Koenig, S. Spataro, M.Träger,
Nuclear Instruments and Methods in Physics Research A763 (2014) 1–5

 

Efficiency of dislocation density reduction during heteroepitaxial growth of diamond for detector applications,
C. Stehl, M. Fischer, S. Gsell, E. Berdermann, M. S. Rahman, M. Traeger, O. Klein, and M. Schreck,
Applied Physics Letters 103, 151905 (2013)

 

A spectrometer on chemical vapour deposition-diamond basis for the measurement of the charge-state distribution of heavy ions in a laser-generated plasma,
W. Cayzac et al.,
Review of Scientific Instruments 84, 043301 (2013)

 

In-Beam Diamond Start Detectors,
M. Ciobanu, E. Berdermann, N. Herrmann, K. D. Hildenbrand, M. Kiˇs, W. Koenig, J. Pietraszko, M. Pomorski, M. Rebisz-Pomorska and A. Schüttauf,
IEEE Transactions on Nuclear Science, vol. 58, no. 4, pp. 2073-2083, Aug. 2011

 

Diamond detectors for hadron physics research,
E. Berdermann et al.,
Diamond & Related Materials 19 (2010) 358–367

 

Electronic Properties of Single Crystal CVD Diamond and its Suitability for Particle Detection in Hadron Physics Experiments,
M. Pomorski,
Graduate Thesis, Johann Wolfgang Goethe University Frankfurt (2008)

 

Development of single‐crystal CVD‐diamond detectors for spectroscopy and timing,
M. Pomorski et al.,
phys. stat. sol. (a) 203, No. 12, 3152–3160 (2006)

 

CVD-Diamond Detectors for Spectroscopy and Timing,
E. Berdermann for the NoRHDia Collaboration,
Proc of the XLIII Intern. Winter Meeting on Nuclear Physics, p. 371-381 Bormio 2005

 

Characterisation of single crystal CVD diamond particle detectors for hadron physics experiments,
M. Pomorski et al.,
phys.stat.sol. (a) 202 1-7 (2005)

 

Radiation Hard Detectors for Spectroscopy and Timing,
E. Berdermann for the NoRHDia Collaboration,
Proc. of the 1st Industrial Conference Diamond at Work, Barcelona 2005

 

Charged particle detectors made of single-crystal diamond,
E. Berdermann et al.,
phys. stat. sol (a) 201 2521-2528 (2004)

 

Beam Monitors for TESLA Based on Diamond Strip Detectors,
J. Bol, E. Berdermann, W. deBoer et al.,
IEEE Transactions on Nuclear Science, Vol. 51, No. 6, December 2004

 

The Diamond Project at GSI - Perspectives,
E. Berdermann et al.,
Proc. of the 7th Int. Conf. on Advanced Technology & Particle Physics (ICATPP-7), October 2001, Como, Italy 

 

Broadband Electronics for CVD-Diamond Detectors,
P. Moritz et al.,
Proc. of the 7th Int. Conf. on New Diamond Science$Technology (ICNDST-7), Hong Kong, July 2000, Diamond and Related Materials 10 (2001) 1765-1769

 

The Use of CVD Diamond for Heavy-Ion Detection,
E. Berdermann et al.,
Proc. of the 7th Int. Conf. on New Diamond Science$Technology (ICNDST-7), Hong Kong, July 2000, Diamond and Related Materials 10 (2001) 1770-1777

 

Recent Results from CVD-Diamond Heavy-Ion Detectors,
E. Berdermann et al.,
Proc. of the XXXVIII Intern. Winter Meeting on Nuclear Physics, Bormio 2000

 

First Applications of CVD-Diamond Detectors in Heavy-Ion Experiments,
E. Berdermann et al.,
6th Int. Conf. on Advanced Technology and Particle Physics, Como, October 98, Nucl. Phys.B (Proc. Suppl.) 78 (1999) 533-539

 

Diamond Detectors for Heavy-Ion Measurements,
E. Berdermann et al.,
5th Int. Conference on Advanced Technology and Particle   Physics, Como, October 1996, Nucl. Phys. B (Proc. Suppl.) 61B (1998) 399-403

 

Diamond Detectors for Heavy-Ion Measurements,
E. Berdermann et al.,
Proc. of the XXXVI Intern. Winter Meeting on Nucl. Physics, Bormio 1998

 

Diamond Detectors with Subnanosecond Time Resolution for Heavy-Ion Spill diagnostics,
P. Moritz et al.,
8th Beam Instrumentation Workshop, AIP Conference Proceedings 451, Stanford CA 1998

 

Diamond Detectors for Beam Diagnostics in Heavy-Ion Accelerators,
P. Moritz et al.,
Proc. of the 3rd European Workshop on Beam Diagnostics and Instrumentation for Particle Accelerators, DIPAC III, October 1997

 

RD42 MIP-Tracker Publications

 

Experimental characterization of a prototype detector system for carbon ion radiography and tomography,
I. Rinaldi, S. Brons, J. Gordon, R. Panse, B. Voss, O. Jäkel and K. Parod,
Phys. Med. Biol. 58 (2013) 413–427

Isotopic effect in half-wavelength-crystal channeling of relativistic ions,
O. Bogdanov et al.,
Phys. Lett. B802 (2020) 135265

 


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