Experimental Techniques

Fabrication and characterization of thin Delta-E detectors for spectroscopic application. Thungstrom, G.G.; Westerberg, L.; Spohr, R.; Petersson, C.S. . Nuclear Instruments & Methods in Physics Research, Section A (Accelerators, Spectrometers, Detectors and Associated Equipment), v 546, n 1-2, 1 July 2005, p 312-18

Real time digital pulse processing applied to heavy ion irradiation. C. Zet, C. Fosalau, R. Spohr. 13th IMEKO-TC4 International Symposium on Messurements for Research and Industry Applications, Athens, Greece, 29th September - 1st October, 2004, p. 26-31

A system for irradiating polymer films with a preset number of ions. C. Zet, H. Kiesewetter, M. Skoczylas, L. Westerberg, R. Spohr. GSI Scientific Report 2003, . 154; ISSN 0174-0814

New Methods for Red Cell Deformability Measurement. H. Kiesewetter, K. Mussler, P. Teitel, U. Dauer, H. Schmid-Schönbein, R. Spohr. Clinical Aspects of Blood Viscosity and Cell Deformability. Springer, Berlin, pp. 19 - 26, (1981)

Production of Single Pore Membranes for the Measurement of Red Blood Cell Deformability. H.G. Roggenkamp, H. Kiesewetter, R. Spohr, U. Dauer, L.C. Busch. Biomedizinische Technik, vol.26, pp. 167 - 169 (1981)

Nuclear Track Irradiations at GSI. Reimar Spohr. Nuclear Tracks, Vol. 4, pp. 101-108, (1980)

Coaxial-Cylinder Electron Spectrometer for Beam-Foil Experiments. E. Dietz, K.O. Groeneveld, R. Spohr, R. Staudte. Nuclear Instruments and Methods, vol. 105, pp. 467 - 471, (1972)

Threshold Photoelectron Detector for Use in the Vacuum Ultraviolet. R. Spohr, P.M. Guyon, W.A. Chupka, J. Berkowitz. Rev. Sci. Instr., vol. 42, pp. 1872 -1879, (1971)

Etching of nanopores in polycarbonate irradiated with swift heavy ions at 15K. Apel, P.Yu.; Akimenko, A.P.; Blonskaya, I. V.; Cornelius, T.; Neumann, R.; Schwartz, K.; Spohr, R.; Trautmann, C. . Nuclear Instruments & Methods in Physics Research, Section B (Beam Interactions with Materials and Atoms), v 245, n 1, April 2006, p 284-7

Track structure in polyethylene terephthalate irradiated by heavy ions: LET dependence of track diameter. Apel, P.; Spohr, R.; Trautmann, C.; Vutsadakis, V.. Radiat. Meas. (1999), 31(1-6), 51-56

Track size and track structure in polymer irradiated by heavy ions. Apel, P.; Schulz, A.; Spohr, R.; Trautmann, C.; Vutsadakis, V.. Nuclear Instruments & Methods in Physics Research, Section B: Beam Interactions with Materials and Atoms (1998), 146(1-4), 468-474

Tracks of very heavy ions in polymers. P. Apel, A. Schulz, R. Spohr, C. Trautmann, V. Vutsadakis. Nuclear Instruments and Methods in Physics Research B 131 (1997) 55-63

Solvent-induced track sensitization. Role of amines. T. Steckenreiter, M. Esser, H. Fuess, J. Fuhrmann, R. Spohr and C. Trautmann. Nucl. Instr. and Meth. B 107 (1996) 393

Track etching in amorphous metallic Fe81B13.5Si3.5C2. C. Trautmann, C. Dufour, E. Paumier, R. Spohr and M. Toulemonde. Nucl. Instr. and Meth. B 107 (1996) 397

Pore geometry of etched ion tracks in polyimide. C. Trautmann, W. Bruechle, R. Spohr, J. Vetter, N. Angert. Nucl. Instr. and Meth. B 111 (1996) 70-74

Etching threshold for ion tracks in polyimide. Trautmann, C.; Bouffard, S.; Spohr, R. . Nuclear Instruments & Methods in Physics Research, Section B: Beam Interactions with Materials and Atoms v 116 n 1-4 Aug 1996.p 429-433

Solvent induced track sensitization. Extraction of oligomers. P. Apel, N. Angert, W. Brüchle, H. Herrmann, U. Kampschulte, P. Klein, L.I. Kravets, Yu. Ts. Oganessian, G. Remmert, R. Spohr, T. Steckenreiter, C. Trautmann, J. Vetter. Nuclear Instruments and Methods in Physics Research - B86, pp. 325-332, (1994)

Solvent induced track sensitization. Swelling and diffusion measurements. M. Eßer, P. Apel, W. Brüchle, J. Fuhrmann, B. Heinrich, G. Remmert, R. Spohr, C. Trautmann, J. Vetter. Nuclear Instruments and Methods in Physics Research -B91, pp. 157-161, (1994)

Stopping power dependence of ion track etching in amorphous metallic Fe81B13.5Si3.5C2. C. Trautmann, R. Spohr, M. Toulemonde. Nuclear Instruments and Methods in Physics Research B 83, pp. 513-517, (1993)

Observation of etched tracks in an amorphous metal. C. Trautmann, S. Andler, W. Brüchle, R. Spohr, M. Toulemonde. Radiation Effects and Defects in Solids, vol. 126, pp. 207-210, (1993)

Preparation of Superinsulating Surfaces by the Nuclear Track Technique. B.E. Fischer, D. Albrecht, R. Spohr. Radiation Effects, vol.65, pp. 143 - 144, (1982)

Scanning Electron Microscope Analysis of Etch Pits Obtained in a Muscovite Mica Track Detector by Etching in Hydro-Fluoric Acid and Aqueous Solutions of NaOH and KOH. H.A. Khan, N.A. Khan, R. Spohr. Nucl.Instr.Meth.Phys.Res., vol. 189, pp. 577 -581 (1981)

Dependence of Etch Pit Cone Angles in Glass Track Detectors on the Energy and Charge of the Particles. H.A. Khan, N.A. Khan, R. Spohr. Nucl.Instr.Meth.Phys.Res., vol. 189, pp. 583 -587 (1981)