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

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

    • 2014
  • M. Guthoff, W. de Boer, A. Dabrowski, F. Kassel and D. P. Stickland, Performance and perspectives of the diamond based Beam Condition Monitor for beam loss monitoring at CMS, PoS TIPP2014 (2015) 281, available online

  • Jessica L. Leonard et al., Fast Beam Condition Monitor for CMS: performance and upgrade, Nuclear Instruments and Methods in Physics Research Section A, Volume 765, 21 November 2014, Pages 235–239, available online

  • M. Schreck, J.Asmussen, S.Shikata, J.-C. Arnault, N.Fujimori, Large-area high-quality single crystal diamond, Cryst. Growth Des., 2014, 14 (7), pp 3234–3238, available online

  • M. Mayr, C. Stehl, M. Fischer, S. Gsell, M. Schreck, Correlation between surface morphology and defect structure of heteroepitaxial diamond grown on off-axis substrates, DOI: 10.1002/pssa.201431210, available online

  • M. Ciobanu, N. Herrmann, K. D. Hildenbrand, M. Kiš, A. Schüttauf, H. Flemming, et al., PADI, an Ultrafast Preamplifier - Discriminator ASIC for Time-of-Flight Measurements, DOI: 10.1109/TNS.2014.2305999, available online

  • M. Schreck, Single Crystal Diamond Growth on Iridium, 2014 in Book: V.K. Sarin (Editor-in-Chief) & C.E. Nebel (Vol.Ed.), Comprehensive Hard Materials (pp. 269-304), Elsevier

  • E. Berdermann, Diamond for Particle and Photon Detection in Extreme Conditions, 2014 in Book: V.K. Sarin (Editor-in-Chief) & C.E. Nebel (Vol.Ed.), Comprehensive Hard Materials (pp. 407-467). Elsevier

  • K. Desjardins, M. Pomorski, J. Morse, Ultra-thin optical grade scCVD diamond as X-ray beam position monitor, J. Synchrotron Rad. (2014). 21, 1217-1223, available online

  • M. Guthoff, Radiation Damage to the diamond-based Beam Condition Monitor of the CMS Detector at the LHC, PhD Thesis 2013 KIT (IEKP-KA/2014-01), available online

  • G. Chicot, J. Morse et al., Electronic and physico-chemical properties of nanometric boron delta-doped diamond structures, J. Appl. Phys. 116, 083702 (2014), available online

  • M. Hempel et al., Performance and upgrade of the fast beam condition monitor at CMS, tbp in Proc. of the IBIC 2014, available online

    • 2013
  • M. Guthoff, K. Afanaciev, A. Dabrowski, W. de Boer,W. Lange, W. Lohmann, D. Stickland, Radiation damage in the diamond based beam condition monitors of the CMS experiment at the Large Hadron Collider (LHC) at CERN, Nuclear Instruments and Methods in Physics Research Section A, Volume 730, 1 December 2013, Pages 168–173, available online

  • M. Mikuz et. al, Diamond Sensors in HEP, PoS ICHEP2012 (2013) 524, available online

  • Schirru F., Lohstroh A., Sellin P.J., Jayawardena K.D.G.I., Henley S.J. , X-ray induced photocurrent characteristics of CVD diamond detectors with different carbon electrodes, F Schirru et al 2013 JINST 8 C12046, available online

  • C. Stehl, M. Fischer, S. Gsell, E. Berdermann, M. S. Rahman, M. Traeger, O. Klein and M. Schreck, Efficiency of dislocation density reduction during heteroepitaxial growth of diamond for detector applications, Appl. Phys. Lett. 103, 151905 (2013), available online

  • M. Pomorski, B. Caylar, P. Bergonzo, Super-thin single crystal diamond membrane radiation detectors, Appl. Phys. Lett. 103, 112106 (2013), available online

  • A. Oh, B. Caylar, M. Pomorski, T. Wengler, A novel detector with graphitic electrodes in CVD diamond, Diamond & Related Materials (2013)

  • S. Sciortino, F. Brandi, R. Carzino, M. Citroni, A. De Sio, S. Fanetti, S. Lagomarsino, E. Pace, G. Parrini, D. Passeri, A. Scorzoni, L. Servoli, L. Tozzetti , Electrical properties of laser-bonded Silicon-On-Diamond samples, Nuclear Instruments and Methods in Physics Research Section A (June 2013), available online

  • M. Jakšic ; V. Grilj ; N. Skukan ; M. Pomorski ; W. Kada ; T. Kamiya, Radiation tolerance of silicon and diamond detectors exposed to MeV ion beams: characterization using IBIC technique, Proc. SPIE 8725, Micro- and Nanotechnology Sensors, Systems, and Applications V, 872516 (May 29, 2013)

  • W. Cayzac, A. Frank, D. Schumacher, M. Roth, A. Blazevic, F. Wamers, M. Träger, E. Berdermann, B. Voss, T. Hessling, A spectrometer on chemical vapour deposition-diamond basis for the measurement of the charge-state distribution of heavy ions in a laser-generated plasmas, Rev Sci Instrum. 2013 Apr;84(4):043301, available online

  • M. Hempel et al., Performance of Detectors using diamond sensors at the LHC and CMS, DESY Scientific Report 2013 (DESY-2013-00935), available online

    • 2012
  • M. Mikuz et al., Diamond Sensors in HEP, PoS, ICHEP2012, available online

  • F. Schirru, B. S. Nara Singh, L. Scruton, M. A. Bentley, S. P. Fox, A. Lohstroh, P. J. Sellin, A. Banu, M. McCleskey, B. T. Roeder, E. Simmons, A. A. Alharbi, L. Trachec, M. Freer, D. Parker, Development of large area polycrystalline diamond detectors for fast timing application of high-energy heavy-ion beams, JINST 7 P05005, May 2012, available online

  • Mohamed A.E. Abdel-Rahman, A.Lohstroh, I. Jayawardena, S. J. Henley, The X-ray detection performance of polycrystalline CVD diamond with pulsed laser deposited carbon electrodes, Diamond and Related Materials, Volume 22, Feb. 2012, available online

  • A. Ignatenko, N. Baboi, H. Henschel, O. Hensler, W. Lange, W. Lohmann, M. Schmitz, K. Wittenburg, S. Schuwalow, Beam Halo Monitor for Flash and the European XFEL, Conf.Proc. C1205201 (2012) 816-818, available online

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

  • J.A. Dueñas, P. Ausset, R. Berjillos, D. Gardès, T. Junquera, L. Lavergne, I. Martel, G. Martinet, E. Rauly, A. Said, A.M. Sánchez Benítez, A. Semsoun, B. Waast, Time structure of ns duration bunches with single crystal diamond detector,Nuclear Instruments and Methods in Physics Research Section A, Volume 641, Issue 1, 11 June 2011, Pages 33-36, available online

    • 2010
  • E. Berdermann et al., Diamond Detectors for hadron physics research , Diamond & Related Materials 19 (2010) 358, available online

  • M. Madhuku et al., Muon spin relaxation in synthetic type IIa diamond grown by high-pressure and high-temperature (HPHT) synthesis, Physica B, CONDENSED MATTER 405/1 (2010) 41

  • E. Berdermann et al., CVD-Diamond Detectors - R&D Status and New Results, Proc. of the XLVIII Int. Winter Meeting on Nuclear Physics - BORMIO2010, subm. to Proceedings of Science

  • J. Pietraszko, L. Fabbietti, W. Koenig, M. Weber for the HADES Collaboration, Diamonds as timing detectors for minimum-ionizing particles: The HADES proton-beam monitor and START signal detectors for time of flight measurements, Nuclear Instruments and Methods in Physics Research A 618 (2010) 121, available online

    • 2009
  • E. Berdermann and M. Ciobanu, CVD-Diamond Detectors for Experiments with Hadrons, Nuclei and Atoms, inCVD Diamond for Electronic Devices and Sensors, ed. by R. S. Sussmann, Wiley Series Materials for Electronic & Optoelectronic Applications, published by John Wiley&Sons, January (2009) 227

  • R. Lovrincic, Über die Bestimmung der dynamischen Leitfähigkeit dünner Metallfilme auf der (1 0 0)-Diamantoberfläche mittels Infrarot-Spektroskopie , Heidelberg, Germany, 2009, available online

  • R. Lovrincic and A. Pucci, Infrared optical properties of chromium nanoscale films with a phase transition, Phys. Rev. B 80 (2009) 205404

  • N. Defrance et al., Loss characteristics in coplanar propagation waveguides fabricated on IIa diamond substrates, Diam. Rel. Mat., 18, (2009) 881

  • V. Catanescu et al., Front End Electronics for High Counting Rate TRD Using Prototype ASIC, CBM Progress Report 2009, p.47, ISBN 978-3-9811298-7-8, available online

  • M. Petris et al., High counting rate, two-dimension position sensitive TRD prototypes, construction and preliminary tests using fast analog signal processor, available online

  • P. Balling et al., Bending diamonds by femtosecond laser ablation, Nuclear Instruments and Methods in Physics Research B 267/17 (2009) 2952

  • R. C. Burns et al., HPHT growth and x-ray characterization of high-quality type IIa diamond, J. Phys.: Condens. Matter 21 (2009) 364224, available online

  • E. Berdermann, M. Ciobanu, M. Henske, M. Kiš, W. Koenig, M. S. Rahman, M. Träger, Time Resolution of Diamond Detectors for Relativistic Ions and Protons, Nuclear Instruments and Methods in Physics Research (2009), available online

  • E. Berdermann for the NoRHDia Collaboration, Advanced Diamond Particle Detectors, Nuclear Physics News, Vol. 19/ No.2, p. 25, 2009, available online

  • R. Lovrincic and A. Pucci, Optical conductivity of nanocrystalline chromium thin films from infrared spectra, Phys. Rev. B 80, 205404 (2009), available online

    • 2008
  • E. Berdermann et al., Ion spectroscopy – a diamond characterization tool, Diam. Relat. Mater. 17 (2008) 1159–1163 available online

  • M. Pomorski, Electronic Properties of Single Crystal CVD Diamond and its Suitability for Particle Detection in Hadron Physics Experiments, Frankfurt, Germany, 2008, available online

  • N. Tranchant, Synthèse et caractérisation de diamants monocristallins pour applications de détecteur de rayonnements, PhD Thesis, University of Rennes, France (2008)

  • A. Lohstroh et al., Ion beam induced charge (IBIC) irradiation damage study in synthetic single crystal diamond using 2.6 MeV protons, Phys. Stat. Sol. (a) 205 No. 9 (2008) 2211-2215

  • P. Bergonzo et al., Probing the transient response to improve the stability of diamond devices under pulsed periodic excitation, Proc. Materials Research Society Symposium Vol 1039, Boston MA, USA, (2008)

  • N. Tranchant et al., Single crystal CVD diamond growth for detection device fabrication, Proc. Materials Research Society Symposium Vol 1039, Boston MA, USA, (2008)

  • W. Trischuk for the RD42 Collaboration, Recent advances in diamond detectors, Proc. 34th Int. Conf. on High Energy Physics, Philadelphia, (2008)

  • D. Tromson et al., Investigations of high mobility single crystal chemical vapor deposition diamond for radiotherapy photon beam monitoring, Journal of Applied Physics 103 (2008) 054512

  • S. Gsell et al., Comparative electron diffraction study of the diamond nucleation layer on Ir(001), Diam. Relat. Mater. 17 (2008) 1029

  • M. Fischer et al., Preparation of 4-inch Ir/YSZ/Si(001) substrates for the large-area deposition of single crystal diamond, Diam. Relat. Mater. 17 (2008) 1035

  • R. Brescia et al., Transmission electron microscopy study of the very early stages of diamond growth on iridium, Diam. Relat. Mater. 17 (2008) 1045

  • E. Berdermann et al., Ion spectroscopy – a diamond characterization tool, Diam. Relat. Mater. 17 (2008) 1159

  • M. Nesladek et al., Charge transport in high mobility single crystal diamond, Diam. Relat. Mater. 17 (2008) 1235

  • N. Tranchant et al., High mobility single crystal diamond detectors for dosimetry: Application to radiotherapy, Diam. Relat. Mater. 17 (2008) 1297

  • M. Schreck et al., Diamond nucleation on iridium: Local variations of structure and density within the BEN layer, Diam. Relat. Mater. 17 (2008)

  • J. Morse et al., Single Crystal CVD Diamond Detectors: Position and Temporal Response Measurements using a Synchrotron Microprobe Beam, Proc. Materials Research Society Symposium Vol 1039, Boston MA, USA, (2008)

  • S. Gsell et al., Iridium on biaxially textured oxide templates: a concept to grow single crystals on arbitrary substrates, Jpn. J. Appl. Phys. 47 (2008) 8925

  • M. Fischer et al., Growth of twin-free heteroepitaxial diamond on Ir/YSZ/Si(111), J. Appl. Phys. 104 (2008) 123531

  • W. Koenig, J. Pietraszko, Diamonds as timing detectors for MIPS: The HADES proton-beam monitor and start detectors, GSI Scientific Report 2008, available online

    • 2007
  • E. Berdermann et al. for the FRS Group, Performance of diamond detectors in a fragmentation experiment, Proc. XLV Intern. Winter Meeting on Nuclear Physics, Bormio, Italy, 2007, available online

  • P. Bednarczyk et al., Application of diamond detectors in tracking of heavy ion slowed down radioactive beams, Acta Physica Polonica B 38 (2007) S1293

  • W. de Boer et al., Radiation hardness of diamond and silicon sensors compared, Phys. Stat. Sol. 204 (2007) S3004.

  • J. Bol et al., Diamond thin film detectors for beam monitoring devices, Phys. Stat. Sol. 204 (2007) S2997.

  • N. Tranchant et al., Time of flight study of high performance CVD diamond detector devices, Phys. Status Sol. (a) 204 (2007) S3023

  • S. Saada et al., Study of the CVD process sequences for an improved control of the Bias Enhanced Nucleation step on silicon, Phys. Stat. Sol. (a) 204 (2007), S2854

  • Z. Remes et al., Amplitude modulated step scan Fourier transform photocurrent spectroscopy of partly compensated B-doped CVD diamond thin films, Phys. Stat. Sol. (a) 204 (2007), S2950

  • P. Bergonzo et al., Improving diamond detectors: A device case, Diamond and Related Materials, 16 (2007) S1038

  • J. Morse et al., Single crystal CVD Diamond as an X-ray Beam Monitor, Diamond and Related Materials 16 (2007) S1049

  • R. C. Burns et al., HPHT - grown type IIa diamond as a material for synchrotron beam line optical elements,Diamond and Related Materials

  • T. Bauer, M. Schreck and B. Stritzker, Epitaxial lateral overgrowth (ELO) of homoepitaxial diamond through an iridium mesh, Diamond and Related Materials 16 (2007) S711

  • E. Berdermann, A. Caragheorgheopol, M. Ciobanu, M. Pomorski, A. Pullia, S. Riboldi, M. Traeger, and H. Weick, Ion spectroscopy - a diamond characterization tool, Diamond and Related Materials (2007), available online

  • M. Fischer et al., Preparation of 4-inch Ir/YSZ/Si(001) substrates fort the large-area deposition of single crystal diamond, Diamond and Related Materials

  • R. Brescia et al., Transmission electron microscopy study of the very early stages of diamond growth on iridium, Diamond and Related Materials

  • N. Tranchant et al., Charge Transport in High Mobility Single Crystal Diamond, Diamond and Related Materials

  • M. Nesladek et al., Charge Transport in High Mobility Single Crystal Diamond, Diamond and Related Materials

  • J. Morse et al., Single-crystal CVD-diamond detectors: Position and temporal response measurements using a synchrotron microbeam probe, Proceedings of the Materials Research Society Fall Meeting, Boston, USA, 2007

  • N. Tranchant et al., Single Crystal CVD Diamond Growth for Detection Device Fabrication, Proceedings Of The Materials Research Society Fall Meeting, Boston, USA, 2007

  • Z. Remes et al., Optical and electronic properties of freestanding single crystal CVD diamond, Proceeding of the 2nd International Industrial Conference Diamond At Work, Rom, Italy, 2007

  • J. C. Arnault et al., Stability of 3C-SiC surfaces under diamond growth conditions, Journal of Applied Physics 101 (1) (2007) art. no. 014904

  • D. Tromson et al., Investigations of high mobility single crystal CVD diamond for radiotherapy photon beam monitoring, in press, Journal of Applied Physics, 2007, JR07-4459

  • R. Lovrincic and A. Pucci, Infrared spectroscopy of chromium film growth on single-crystal diamond, GSI Scient. Report (2006), S197

  • M. Pomorski et al., Development of Single-Crystal CVD-diamond detectors, GSI Scient. Report (2006), S196

  • C. Descamps et al., Clinical studies of optimised single crystal and polycrystalline diamonds for radiotherapy dosimetry, RADMEAS-D-07-00326R1

  • C. Grah et al., Radiation Hard Sensors for the Beam Calorimter of the ILC, Proceedings of the IEEE Conference on Nuclear Science Symposium & Medical Imaging, Honolulu Hawai, USA, 2007

  • E. Berdermann et al., Timing Properties of CVD-Diamond Detectors at RelativisticVelocities, GSI Scientific Report (2007), available online

    • 2006
  • M. Pomorski, E. Berdermann, W. de Boer, A. Furgeri, C. Sander, J. Morse,Charge transport properties of single crystal CVD-diamond particle detectors Diamond and Related Materials, In Press, Corrected Proof, Available online 15 December 2006 on-line version

  • M. Pomorski, E. Berdermann, A. Caragheorgheopol, M. Ciobanu, M. Kis, A. Martemiyanov, C. Nebel, P. Moritz, Development of single-crystal CVD-diamond detectors for spectroscopy and timing phys. stat. sol. (a) 203, No. 12, 3152–3160 (2006) on-line version

  • J Morse et al., Single crystal CVD Diamond as an X-ray Beam Monitor, Diamond and Related Materials, accepted, in print (2006)

  • N. Tranchant et al., Transport in high mobility diamonds, submitted to Appl. Phys. Letters

  • Andrey Bogdan et al., Transient photo-current measurements of intrinsic single-crystalline CVD and IIa natural diamond, Proc. Materials Research Society, in print, 2006

  • N. Tranchant et al., Single crystal diamond growth and characterization, Proc. Materials Research Society, in print, 2006

  • Z. Remes and M. Nesladek, AM-FTPS spectroscopy applied to study of B-doped epitaxial diamond, submitted to Appl. Phys. Letters

  • C. Grah et al., Polycrystalline CVD Diamonds for the Beam Calorimeter of the ILC, Nuclear Science Symposium Conference Record, 2006. IEEE

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

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

  • E. Berdermann for the NoRHDia Collaboration,Radiation_Hard Detectors for Spectroscopy and Timing, 'Proc. of the 1st Industrial Conference Diamond at Work', Barcelona 2005 on-line version

  • G. Bogdan et al.,Growth and characterization of near-atomically flat, thick homoepitaxial CVD diamond films, Physica Status Solidi, 202 (2005) 2066 on-line version

  • M. Pomorski et al., Single crystal CVD diamond detectors for hadron physics, Astroparticle, Particle and Space Physics, Detectors and Medical Physics Applications - Proceedings of the 9th Conference, Villa Olmo, Como 2005 on-line version
    • 2004
  • E. Berdermann et al.,Charged particle detectors made of single-crystal diamond, phys. stat. sol (a) 201 2521-2528 (2004) on-line version
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