Partners	Publications
P1 - ATI	1. G. Badurek, H. Rauch, A. Zweilinger, Z. Phys. B 38 (1980) 303. 2. B. Alefeld, G. Badurek, H. Rauch, Z. Phys. B 41 (1981) 231. 3. U. Schmidt, H. Abele, A. Boucher, M. Klein, C. Stellmach, P. Geltenbort, Phys.Rev.Lett. 84 (2000) 3270. 4. G. Badurek, Habilitation Thesis, University of Technology Vienna (1982), unpublished. 5. S. Müller, G. Badurek, Appl. Phys. A, in print. 6. M. Hochhold, H. Leeb, G. Badurek, J. Magn. Magn. Mat. 157 & 158 (1996) 575 7. H. Leeb, M. Hochhold, G. Badurek, R.J. Buchelt, A. Schricker, Aust. J. Phys 51 (1998) 401. 8. M. Schlenker, J. Baruchel, Physica B 137 (1986) 309. 9. G. Badurek, R.J. Buchelt, H. Leeb, Physica B 276-278 (2000) 588
P2 - BNC	1. J. Füzi, R. Golub, F. Mezei (HMI), L. Rosta: Accuracy Evaluation of Hexapole Electromagnets, Appl. Phys.A, (2002), in print. 2. V.T. Lebedev, G.P. Gordeev, E.A. Panasiuk, L.Kiss L. Rosta, Gy. Török, B. Faragó. „Ferrofluid Dynamics: Spin Echo Experiment, Journal of Magnetism and Magnetic Materials 122 (1993) pp 83-89 . 3. B. P. Toperveg, G. P. Gordeev, V. T. Lebedev Gy. Török, L. Cser, Rosta, T. Rekveldt, W. Roest. “ Neutron Tomography Principles and Realization, Acta Physica Hungarica,H-75 (1-4) pp 281-284 (1994) (Task 4) 4. V. T. Lebedev ,G. P. Gordeev,B. P. Toperveg, T. Rekveldt, W. Roest, L. Cser, Rosta, Gy. Török, “Neutron Tomography Experiments for Study of Trapped Flux Distribution in High Tc Superconducting Ceramics”, Physica B 213&214 (1995) 990-992. 5. V.T.Lebedev, G.P.Gordeev, A.I.Sibilev, V.V.Klyubin, Gy.Torok, L.Cser, Gy.Kali, L.K.Varga. “Neutron Spin Echo Study of Low-Tc Ferrofluid “, Journal of Magnetism and Magnetic Materials 201 (1999) 80-83. 6. V.T.Lebedev, Gy.Török. “Broadband neutron spin-flippers on magnetized foils”, Nuclear Instruments and Methods B 195 (2002) 449-454 .
P3 - CEA-G	1. J. Dreyer, L.P. Regnault, E. Bougeat-Lami, E. Lelièvre-Berna, S. Pujol, F. Thomas, M. Thomas, F. Tasset, “Cryopol: a superconducting magnetostatic cavity for a 3He neutron spin filter", Nucl. Instrum. and Methods A 449 (2000) 638-648. 2. K. H. Anderson, E. B. Lami, J. Dreyer, W. Heil, D. Hofmann, H. Humblot, S. Ivanov, J. Kulda, E. L. Berna, A. Petoukhov, S. Pujol, L. P. Regnault, T. W. Roberts, J. R. Stewart, F. Tasset, M. Thomas , A. R. Wildes. “Recent news on ILL polarised 3He developments”, Physica B, 276-278, 65-66 (2000) 3. L. P. Regnault, F. Tasset, J. E. Lorenzo, T. Roberts, G. Dhalenne, A. Revcolevschi. “Three directional versus three dimensional polarization analysis in the spin Peierls compound CuGeO3” Physica B, 267-268, 227 (1999) 4. L.P. Regnault "Polarized neutron inelastic scattering on low-dimensional systems", In proceedings of the French/Japanese symposium (Fukuoka Japan).Eds. Y. Ajiro and J.B. Boucher, Kyushu University Press 2002, pp. 93-101 5. L.P. Regnault, B. Geffray, P. Fouilloux, B. Longuet, F. Mantegazza, F. Tasset, E. Lelièvre-Berna, E. Bourgeat-Lami, M. Thomas, and Y. Gibert, "Spherical polarimetry on the three-axes spectrometer IN22", Proceedings of the PNCMI'2002 Conference, Jülich September 07-10, to appear in Physica B (2003). 6. L.P. Regnault, H.M. Rønnow, J.E. Lorenzo, R. Bellissent, and F. Tasset, "Inelastic neutron polarization analysis", Proceedings of the PNCMI'2002 Conference, Jülich September 07-10, to appear in Physica B (2003).
P4 - FRM-II	1. R. Gähler et al. Phys. Lett. A 123 (1987) 43 " A neutron resonance spin echo spectrometer for quasi-elastic and inelastic scattering", Phys. Lett. A 123 (1987) 43 2. R. Golub et al., "A plane wave approach to particle beam magnetic resonance", Am. J. Phys. 62 (1994) 9 3. R. Gähler et al., "Space-time description on neutron spin echo spectrometry", Physica B 229 (1996)1-17 4. M. Köppe et al., J. Neu. Research 4 (1996) 261 "Performance and future of a Neutron Resonance Spin Echo Spectrometer", J. Neutron Research 4 (1996) 261 5. T. Keller et al., " Recent developments and results from the neutron resonance spin-echo spectrometer (NRSE) at BENSC Berlin" Physica B 234-236 (1997)1126 6. M. Bleuel et al., "Future Developments in Resonance Spin Echo". Lec. Not. Phys. 176-198 (2002) 601
P5 - FZJ	1. D. Richter, J.B. Hayter, F. Mezei, B. Ewen, Phys. Rev. Lett. 41,1484 (1978) 2. D. Richter, B. Farago, L.J. Fetters, J.S. Huang, B. Ewen, C. Lartigue, Phys. Rev. Lett. 64, 1389 (1990) 3. D. Richter, B. Farago, R.Butera, L.J. Fetters, J.S. Huang, B. Ewen, Macromolecules 26, 795 (1993) 4. M. Monkenbusch, Nucl. Inst. and Methods in Phys. Research \/ A287 (1990) 465 5. M. Monkenbusch, R. Schaetzler, D. Richter, Nucl. Inst. and Methods in Phys. Research \/ A399(1997) 301 6. M. Ohl, M. Monkenbusch, D. Richter, Physica B to be published 2003, Conference Proceeding of the PNCMI 2002 7. A. Ioffe, P. Fischer., Th. Krist, F. Mezei “New Type of Neutron Polarizer for Neutron Interferometer”, J. Phys. Soc, Jpn, Suppl. A65, (1996) p. 80. 8. A. Ioffe, G. Gordeev, B.Ibraev, Th. Krist and F. Mezei (1997) ‘High-effective transmissive neutron polarizer for high-resolution double crystal diffractometer’. Physica B, 234-236, (1997) 1071. 9. G. Wagh, V. C. Rakhecha, P. Fischer and A. Ioffe (1998), ‘Neutron Interferometric Observation of Noncyclic Phase’, Physical Review Letters, , v. 81, (1998), pp. 1992-1995. 10. F. Mezei, G. Drabkin and A. Ioffe "Polarimetric neutron spin echo”, Physica B: Condensed Matter, V 297, 2001, 9 11. A. Ioffe and F. Mezei, “4 -symmetry of the neutron wave function under space rotation”, Physica B: Condensed Matter, V. 297, (2001), 303 12. A. Ioffe , H. Conrad , T. Zeiske , R. Müller , E. Küssel , S. Masalovich , M. Schlapp , B. Schmitz , T. Brückel “A new thermal neutron spectrometer/diffractometer for polarization analysis (SV30) at the research reactor FRJ-2”, Applied Physics A 74 (2001) 107. 13. U. Rücker, W. Bergs, B. Alefeld, E. Kentzinger and Th. Brückel “Polarization analysis for the 2D position-sensitive detector of the HADAS reflectometer in Jülich” Physica B: Condensed Matter, 297, (2001), 140. 14. U. Rücker, B. Alefeld, W. Bergs, E. Kentzinger and Th. Brückel “The new polarized neutron reflectometer in Jülich”, Physica B: Condensed Matter, 276-278, (2000), 95. 15. U. Rücker , E. Kentzinger , B. Toperverg , F. Ott , T. Brückel, “Layer-by-layer magnetometry of polarizing supermirrors”, Applied Physics A 74 (2001) 607.
P6- HMI	1. F. Mezei, G. Drabkin and A. Ioffe, “Polarimetric Neutron Spin Echo”, Physica B 297 (2001) 2. C. Pappas, A. Triolo, F. Mezei, R. Kischnik, and G. Kali, "Wide Angle Neutron Spin Echo and Time-of-Flight Spectrometer", Lecture Notes in Physics 601 (2003) 35 3. C. Pappas, G. Kali, P. Böni, R. Kischnik, L.A. Mertens, P. Granz and F. Mezei, "The Novel Multidetector Neutron Spin Echo Spectrometer SPAN at BENSC”, Physica B 276-278 (2000) 162 4. R. Pynn, M.R. Fitzsimmons, M.T. Rekveldt, J. Major, H. Fritzsche, D. Weller and E.C. Johns "Optimization of neutron scattering instrumentation using neutron spin echo: Application to the discrimination of diffuse scattering in neutron reflectivity experiments.” Review of Scientific Instruments 73 (2002) 2948 5. T. Keller, K. Habicht, J. Major, H. Dosch, S.G.E. te Velthuis, G.P. Felcher "Spin echo resolved grazing incidence scattering (SERGIS) – first results”,Contribution to PNCMI 2002, Physica B (2003), in press. 6. T. Keller, R. Golub, F. Mezei, F. and R. Gaehler, “A neutron resonance spin-echo spectrometer (NRSE) with tiltable fields”, Physica B (Dec. 1997) vol.241-243, p.101. 7. T. Keller, R. Golub, F. Mezei and R. Gähler, “Recent developments and results from the neutron resonance spin-echo spectrometer (NRSE) at BENSC Berlin”, Physica B 234-236 (June 1997) 1126. 8. M.T. Rekveldt, T. Keller, R. Golub, "Larmor precession, a technique for high-sensitivity neutron diffraction”, Europhysics Letters 54 (2001) 342
P7 - ILL	1. Koppe M, Bleuel M, Gahler R, Golub R, Hank P, Keller T, Longeville S, Rauch U, Wuttke J., "Prospects of resonance spin echo”, PHYSICA B 266, (1999) 75. 2. A T. Keller, R. Golub, F. Mezei, F. and R. Gaehler, “A neutron resonance spin-echo spectrometer (NRSE) with tiltable fields”, Physica B (Dec. 1997) vol.241-243, p.101. 3. A comparison of spin echo and conventional neutron instruments by the coherence properties of the neutrons 4. Keller T, Besenbock W, Felber J, Gahler R, Golub R, Hank P, Koppe M , “A comparison of spin echo and conventional neutron instruments by the coherence properties of the neutrons” PHYSICA B 234: 1997, p.1120 5. Hank P, Besenbock W, Gahler R, Koppe M, “ Zero-field neutron spin echo techniques for incoherent scattering”, PHYSICA B 234: 1997, p.1130 6. R. Gahler, B. Fеk, R. Golub, Th. Hils, S. Klimko, J. Lal, S.Prokudaylo, Ch.Stadler, “New instruments based on flipper coils or modulation techniques for steady state or pulsed neutron sources” 7. Proceedings of SPIE, Volume: 4785, in Advances in neutron scattering instrumentation, Proceedings of SPIE, Editors: Anderson, Ian S.; Guirard, Bruno , Vol. 4785 page 52 (2002) 8. E Lelievre-Berna, "Novel polarized neutron tools" in Advances in neutron scattering 9. instrumentation, Proceedings of SPIE, Editors: Anderson, Ian S.; Guirard, Bruno Vol. 4785 page 112-125 (2002) 10. Brown PJ, Forsyth JB, Lelievre-Berna E, Tasset F. , “Determination of the magnetization distribution in Cr2O3 using spherical neutron polarimetry” J. Phys.Cond. Matter 14 (8): 4 (2002), 1957. 11. Hiess A, Brown PJ, Lelievre-Berna E, Roessli B, Bernhoeft N, Lander GH, Aso N, Sato N., “Spherical neutron polarimetry of the magnetic structure in UNi2Al3”, Phys.Rev.B, 64 (2001), 13. 12. Tasset F, Brown PJ, Lelievre-Berna E, Roberts T, Pujol S, Allibon J, Bourgeat-Lami E “Spherical neutron polarimetry with Cryopad-II”, PHYSICA B 268: 1999, p. 69 13. Tasset, F. , “Zero field neutron polarimetry” Physica B, 1989. 156-157: p. 627. 14. Brown, P.J., J.B. Forsyth, and F. Tasset, “Neutron polarimetry”, Proc. R. Soc. Lond. A, 1993. 442: p. 147. 15. Tasset, F., “Magnetic structures and Neutron Polarimetry”, J. M. M. M., 1994. 129: p. 47-54. 16. Tasset, F., “Neutron beams at the spin revolution”, Physica B, 2001. 297: p. 1-8. 17. Brown, P.J., et al., “Determination of the magnetic structure of Mn3Sn using generalized neutron polarization analysis”, J. Phys. : Cond. Mat., 1990. 2: p. 9409-9422. 18. Brown, P.J., et al., “Antiferromagnetism in CuO studied by neutron polarimetry”, J. Phys.: Condens. Matter, 1991. 3: p. 4281-4287. 19. Nunez, V., et al., “Antiferromagnetism of the Kondo Lattice compound CeCu2 studied by neutron polarimetry”, J. Phys.:Condens. Matter, 1991. 4: p. 1115-1120. 20. Brown, P.J., et al., “”Extinction in mixed magnetic and nuclear reflections. A Study of the magnetic structure of Tb Al O3 using neutron polarimetry and integrated intensity measurements”. Acta Cryst., 1992. A48: p. 236-243. 21. Roberts, T.W., et al., “Spherical neutron polarimetry study of the zero field magnetic structures of Neodymium using Cryopad II”. Physica B, 1998. B 241-243: p. 690-692. 22. Roberts, T.W., et al., “Magnetic moment directions in the 3-q phase of neodymium from neutron polarimetry with CRYOPAD. “, Physica B, 1999. 267-268: p. 243-247. 23. Tasset, F., P.J. Brown, and J.B. Forsyth, “Determination of the absolute magnetic moment direction in Cr2O3 using generalized polarization analysis”J. Appl. Phys., 1988. 63: p. 3606. 24. Brown, P.J., J.B. Forsyth, and F. Tasset, “A study of magnetoelectric domain formation in Cr2O3”, Journal of Physics: Condensed Matter, 1998. 10(3): p. 663-672. 25. Brown, P.J., J.B. Forsyth, and F. Tasset, “Precision measurement of antiferromagnetic form factors”. 26. Physica B, 1999. 267-268: p. 215-220. 27. Regnault, L.P., et al.,”Polarized neutron inelastic scattering on the spin-Peierls system CuGeO3: "three-directional" versus "three-dimensional polarization analysis"., Physica B, 1998. 267-268: p. 227-235. 28. Regnault, L.P., et al., “Nature of magnetic excitations in CuGeO3”. 29. Physica B, 2000. 276-278: p. 708-709. 30. Schmidt U, Biche S, Haussler W, et al. „Neutron resonance spin echo with multidetector”, PHYSICA B 234: 1997, p 1133. 31. Petoukhov A. K. “Spin-dependent correlations in elastic scattering of slow neutrons”, PHYSICA B 268: 1999, p.294 32. Towards 3D polarization analysis in neutron reflectometry 33. Toperverg B, Nikonov O, Lauter-Pasyuk V, Lauter H “Towards 3D polarization analysis in neutron reflectometry” PHYSICA B, 297, 2001, p.169
P8 - IRI	1. M.Th.Rekveldt, Novel SANS instrument using Neutron Spin-Echo, Nuclear Instruments and Methods in Physics Research, B 114 (1996)366-370. 2. M.Th.Rekveldt, Neutron Reflectometry and SANS combined by Neutron Spin-Echo, Physica B 234-236(1997) 1135-1136 3. M.Th. Rekveldt, W.H. Kraan, High-resolution Neutron Diffraction using Larmor Precession for Angular and Wavelength Labelling, J. Neutron Research 8 (1999) 53-70. 4. Timofei Krouglov, Ignatz M. de Schepper, Wim G. Bouwman, Theo Rekveldt, Real-Space fundamentals of spin-echo small-angle neutron scattering, J. of Applied Cryst. 36 (2003) 117-124 5. M.Th. Rekveldt, T. Keller, W.H. Kraan, New instrumentation using Larmor precession of polarised neutrons, Physica B 297 (2001) 18-22 6. M.Th. Rekveldt, Th. Keller, R. Golub, Larmor precession,a technique for high sensitivity Neutron Diffraction, Europhysics Letters, 54 (2001) 342-346 7. M. Theo Rekveldt, Novel Instrumentation Concepts Using Polarized Neutrons. Physica B 276-278 (2000) 55-58 8. M.Theo Rekveldt, Wim G. Bouwman, Wicher H. Kraan, Magnetised foils as  -flippers in Neutron Spin-echo spectrometry, J Appl. Phys. 92 (6): (2002) 3354-3362 9. M.Th. Rekveldt, W.H. Kraan, T. Keller, High resolution diffraction using Larmor precession of polarised neutrons, J. of Applied Cryst. 35 (2002) 28-35 10. T. Keller, M.Th. Rekveldt K. Habicht, Neutron Diffraction measurements of the lattice spacing spread of pyrolytic graphite, , Applied Physics A 74 (2002) s127-s129 11. M.Theo Rekveldt, Wim G. Bouwman, Wicher H. Kraan, Oktay Uca, Sergei Grigoriev, Klaus Habicht and Thomas Keller, Overview new Larmor precession techniques, Applied Physics A 74, (2002) S323-325 12. Wim G. Bouwman, Oktay Uca, Wicher H. Kraan, Serguei V. Grigoriev, M.Theo Rekveldt, First quantitative test of Spin-echo small-angle neutron scattering, Applied Physics A 74 [Suppl.], (2002) S115–S117 13. M.Theo Rekveldt, Wim G. Bouwman, Wicher H. Kraan, Oktay Uca, Sergei Grigoriev and Rob Kreuger, Technical aspects of Larmor precession with inclined front and end faces, in Neutron Spin Echo Spectroscopy, Lecture Notes in Physics, eds f.Mezei, C. Pappas, T. Gutberlet, Springer-Verlag, Berlin Heidelberg 2003. 14. M.Theo Rekveldt, Wim G. Bouwman, Wicher H. Kraan, Oktay Uca, Sergei Grigoriev, Klaus Habicht and Thomas Keller, Elastic neutron scattering measurements using Larmor precession of polarised neutrons, in Neutron Spin Echo Spectroscopy, Lecture Notes in Physics, eds F.Mezei, C. Pappas, T. Gutberlet, Springer-Verlag, Berlin Heidelberg 2003.
P9 - LLB	1. R. Golub and R. Gaehler Phys. Lett. A 123 (1987) 43 – 48 2. R. Gaehler and R. Golub Z. Phys. B – Condensed Matter 65 (1987) 269-273 3. D. Dubbers et al Nuc. Inst. And methods A275 (1989) 294-300 4. M. Koppe et al J. Neutron research 4 (1996) 261-273 5. M. Bleuel et al, Futur developments in Resonance Spin-Echo, in Neutron Spin Echo Spectroscopy, Basic trends and applications, Lecture notes in physics, vol 601, Eds. F. Mezei, C. Pappas and T. Gutberlet. Springer, Berlin, 2002. 6. S. Propodaylo Appl. Phys. A 74 (2002) S317-S319 7. F. Pfeiffer, V. Leiner, P. Hoghog, I. Anderson, “Neutron nano-beam production ILL”: Annual Report 2001 8. F. Pfeiffer, T. Salditt, P. Hoghog, I. Anderson, Phys. Rev. B 62 (2000) 16939. 9. S.P. Pogossian, H. Le-Gall, J. Ben-Youssef, A. Menelle, “Coupling between neutron spin states in a proposed new spin directional coupler”, J. Mag. Mag. Mat. 237 (2001) 302-8. 10. S. P. Pogossian, A. Menelle, J.B. Youssef, H. Le-Gall, “Observation of polarization insensitive neutron waveguide modes in magnetic multilayered structures”, J. of Physics D – Applied Physics 34 (2001) 1872-7.
P10 - GKSS	1. V. Deriglazov, A Okorokov, V.Runov, B. Toperverg, R Kampmann, H. Eckerlebe, W. Schmidt, W Loebner: "Study of spin waves in amorphous ferromagnet Fe_50Ni_22Cr_10P_18 by small angle polarized neutron scattering", Physica B 180 & 181 (1992) 262. 2. B.P. Toperverg, V.V. Deriglazov, V.E. Mikhailova: "On the studies of spin-wave dynamics in ferromagnets by polarized neutron scattering", Physica B 183 (1993) 326 3. E. Sackmann: “Supported Membranes: Scientific and Practical Applications”, Science, 271 (1996) 43-48 4. H. Zabel, A. Schreyer, P. Bödeker, and P. Sonntag: Spin density waves and proximity effects in thin epitaxial Cr films, in Dynamical Properties of Unconventional Magnetic Systems, eds. A.T. Skjeltorp and D. Sherrington, NATO ASI Series E: Applied Sciences, Vol. 349, Kluwer Academic Publishers, Dordrecht/Boston/London, 1998 5. H. Zabel, and A. Schreyer: Polarized Neutron Reflection: Revealing Spin Structures in Nanostructured Layers, Neutron News 9, 18 – 23 (1998). 6. R. Kampmann, M. Haese-Seiller, M. Marmotti, J. Burmester, V. Deriglazov, V. Syromiatnikov, A. Okorokov, F. Frisius, M. Tristl, E. Sackmann. The novel reflectometer REFSANS for analyses of liquid and soft surfaces at the new research reactor FRM-II in Munich / Germany. Proceedings of the “International Conference on Neutron Scattering (ICNS-2001)”, Applied Physics A 74 [Suppl.] S249-S251 7. C. Bittorf, R. Kampmann. Depth profile analyses and thermal stability of a Cu-Co-Cu three layer system investigated by polarized neutron reflectometry. Nuclear Instruments and Methods in Physics Research B 179 (2001) 103-112 8. R. Kampmann, M. Haese-Seiller, V. Deriglazov, A. Okorokov, A. Schreyer, E. Sackmann: Perspectives for polarized reflectometry at the novel reflectometer REFSANS at FRM-II in Munich / Germany. Proceedings of the “International Conference on Polarized Neutrons for Condensed Matter Investigations (PNCMI-2001)”, Physica B, in press. 9. R. Kampmann, M. Haese-Seiller, V. Kudryashov, M. Tristl, V. Deriglazov, B. Toperverg, A. Schreyer, E. Sackmann: Design and Potential of the Reflectometer REFSANS at FRM-II for Investigations on the Air/Liquid Interface, submitted