Publications by Hendrik de Waard

  • De atoomvormfactor van kwik voor snelle electronen; P.G. van Zanten en H. de Waard, Physica 21 (1944) 20-34.
  • Circuit for rapid determination of receiving power and other characteristics of coincidence systems; H. de Waard, Rev.Sc.Instr. 20 (1949) 911-915.
  • The use of solid solutions of para-terphenyl and tetra-phenylbutadience in polystyrene as scintillation phosphors; H. de Waard and J.E.P. Martini, Physica 18 (1952) 647-650.
  • A high resolution coincidence instrument with scintillation counters. Delayed and prompt coincidence in the decay of 181Hf; H. de Waard, Physica 18 (1952) 1151-1156.
  • Moulded polystyrene scintillators; H. de Waard, W. Prins and A.Prins, Appl. Sci.Res.Section B, 3 (1953) 372-376.
  • The decay of Osmium-193; H. de Waard, Physica 20 (1954) 41-43.
  • Scintillation coincidence studies of the decay of 181Hf and 193Os and the isomerism in odd proton nuclei; Doctoral Thesis H. de Waard (Groningen, 1954).
  • The decay of 175 and 177 Ytterbium; H.de Waard, Phil.Mag.16 (1955) 445-447.
  • Stabilisation of scintillation spectrometers by counting rate difference feedback; H. de Waard, Nucleonics 3 (1955 July) 36-41.
  • The half life of the 145 keV level of 141 Praseodymium; H. de Waard and T.R. Gerholm, Physica 21 (1955) 599-600.
  • The half life of the 163 keV excited state in 139 Lahthanum; T.R. Gerholm and H. de Waard, Physica 21 (1955) 601-602.
  • Orbital momentum forbidden magnetic dipole transitions in some odd proton nuclei; H. de Waard and T.R. Gerholm, Nucl.Phys. 1 (1956) 281-301.
  • Multi coincidence goniometer for angular correlation measurements; T.R. Gerholm, T. Lindquist and H. de Waard; Nucl.Instr. 1 (1957) 107-111.
  • Over modellen van atomen en kernen, Inaugural address, Groningen, April 1957.
  • Longitudinal polarisation of beta-particles from 60Co, 32P and 170Tm; H. de Waard and O.J. Poppema, Physica 23 (1957) 597-598.
  • Lifetime measurements by conversion line shift: Lifetime of the 40-keV state of Tl208; J.G. Siekman and H. de Waard, Phys.Rev. 107 (1957) 1731.
  • Some limitations and principles of nanosecond time measurements in nuclear physics; H. de Waard, Nucl.Instr. 2 (1958) 73-80.
  • Measurements of longitudinal polarisation of beta-particles; H. de Waard, O.J. Poppema and J. van Klinken, Proceedings of the International Conference on Nuclear Structure at Rehovoth, Ed.H.J.Lipkin, North Holland, Amsterdam,(1958) 388-393.
  • Lifetime of the 85 keV state of Ra224; J.G. Siekman and H. de Waard, Proceedings Rehovoth Conf. on Nuclear Structure Ed.H.J. Lipkin, North Holland. Amsterdam (1958) 584-586.
  • Decay of Lu170; P. Boskma and H. de Waard, Proceedings Rehovoth Conf. on Nucl. Structure (Ed. HJ. Lipkin, North Holland, Amsterdam, 1958) 152.
  • Pariteit en beta-interactie; H. de Waard, Ned.T. Natuurkunde 24 (1958) 229-233.
  • Lifetime measurements of the first excited states of Tl208 and Ra224; H. de Waard, Physica 8 (1958) 402-411.
  • The half-life of the 8.24 keV state of 169 Tm; H. Beekhuis en H. de Waard, Physica 24 (1958) 15-22.
  • Electronica, H. de Waard, Uitg. de Haan, 1959 (Book).
  • Kernfysica, H. de Waard, Eerste Nederlandse systemtisch ingerchte encyclopedie (E.N.S.I.E., Amsterdam 1959) XI, 195-215 (Encyclopedia).
  • Halfgeleiders, H. de Waard, E.N.S.I.E., XI, 215-220 (Encyclopedia).
  • Resonantie-absorptie van gammastraling met 'vastgevroren' kernen (Mössbauer effect), H. Beekhuis en H. de Waard, Ned.T. Natuurkunde, 24 (1960) 118-123.
  • Hessel de Vries, Physicist and Biophysicist, Science 131 (1960) 1720-1721 (in memoriam).
  • An automatic changer for liquid samples, Internat. Journ. of Appl. Radiation and Isotopes 8, (1960) 139-141).
  • C14-Datierung zweier Torfproben aus Madagaskar, H. Straka and H. de Waard, Die Naturwissenschaften 2 (1961) 45.
  • Method for calibrating and testing time to pulse height converters, H. de Waard and H. Beekhuis, Proceedings of the Gatlinburg Conference. National Academy of Sciences Publ. 974 (1962) 71-77
  • E2/M1 mixing ratio of the 123 keV transition in Fe 57 determined from a Mössbauer coincidence experiment, H. de Waard and F. van der Woude, Phys.Rev. 129 (1963) 1342-1344.
  • Lifetime of the 26.9 keV state of I129, H. de Waard, M. Garrell and D. Hafemeister, Physics Letters 3 (1962) 59.
  • Mössbauer determination of isomeric shift and quadrupole splitting in some I129 compounds, H. de Waard, G. Pasquali and D. Hafemeister, Physics Letters 5 (1963) 217-220.
  • Magnetic moment of the 26.8 keV state of I129 measured with the aid of Super-Conducting Magnets, H. de Waard and J. Heberle, The Physical Review 136 (1964) B1615-1617.
  • Shape of the 962 keV beta spectrum of 198Au, H. Beekhuis and H. de Waard, Nucl.Phys. 74 (1965) 459-468.
  • Optical method for absolute velocity calibration of Mössbauer spetrometers, H. de Waard, Review of Scientific Instruments 36 (1965) 1728-1733.
  • The beta decay of 147Nd, H. Beekhuis, P. Boskma, J. van Klinken and H. de Waard, Nucl.Phys. 79 (1966) 220-230.
  • Anomalous magnetic effect in Mössbauer spectra of some Fe3+-compounds, R.M. Housley and H.de Waard, Physics Letters 21 (1966) 901-902.
  • Internal magnetic field of iodine in iron, H. de Waard and S.A Drentje, Physics Letters 20 (1966) 38-40.
  • Modern Electronics, H. de Waard and D.Lazarus, Addison-Wesley (1966) (Book).
  • 27.7 keV level in I129 and some remarks about its use in Mössbauer experiments, H. de Waard and R. Sanders, Phys.Rev. 146 (1966) 907-911.
  • The Mössbauer effect in dilute Fe-alum, H. de Waard and R.M. Housley, Hyperfine Interactions, Ed. A.J.Freeman and R.B.Frankel, Academic Press, New York (1967) 691-695.
  • Hyperfine field at xenon nuclei in iron, L.Niesen, J.Lubbers, H.Postma, H. de Waard and S.A.Drentje, Physics Letters 24B (1967) 144-146.
  • Kernen in ijzersterke velden, H. de Waard (Oration, Wolters, Groningen, 1967) en overgenomen in Atoomenergie 9 (1967) 262-267.
  • Parity nonconservation in the beta decay of 129Te studied by the Mössbauer effect, H. de Waard, J. Heberle, P.J. Schurer, H. Hasper and F.W.J. Koks, Hyperfine Structure and Nuclear Radiations, Noord Hollandse Uitgevers Mij. Amsterdam (1968) 329-340.
  • Observations on implanted xenon-133 sources, H. de Waard and S.A. Drentje, Proc.Roy.Soc. A311 (1969) 139-150.
  • The magnetic hyperfine field of cesium in iron is positive, H. de Waard and S.R. Reintsema. Physics Letters 29A (1969) 290-291.
  • Shape factors of the beta spectra of 170Tm, 186Re and 188Re, S.Y. van der Werf, H. de Waard and H. Beekhuis, Nucl.Phys. A134 (1969) 215-224.
  • Carbon-14 in Patagonian tree rings, J.C.Lerman, W.G. Mook, H. de Waard and J.C. Vogel, Science 165 (1969) 1123-1125.
  • Hyperfine fields of technetium and zinc impurities in iron, P Inia, Y.K. Agarwal and H. de Waard, Phys.Rev. 188 (1969) 605-608.
  • De hyperfijn interactie van gastatomen in ferromagnetische metalen, H. de Waard, Ned.T. Natuurkunde 35 (1969) 566-569
  • Mössbauer effect of the 93-keV transition in Zn67, H. de Waard and G.J. Perlow, Phys.Rev.Letters 24 (1970) 566-569
  • Mössbauer and nuclear orientation studies on atoms implanted in metals, H. de Waard, P. Schurer, P. Inia, L. Niesen and Y.K. Agarwal, Proceedings Rehovoth Conference on Hyperfine Interactions Ed.G. Goldring and R. Kalish, Gordon and Breach, London, (1971) 89.
  • Mössbauer spectra of Mn Sb(129I) yield mixing ratio of 27.7 keV transition and accurate magnetic moment ratio of 27.7 keV and ground state in 129I, H. de Waard, S.R. Reintsema and M. Pasternak, Phys.Letters 33B (1970) 413-415.
  • Hyperfine magnetic field of argon implanted in nickel, H.G. Devare and H. de Waard, Phys.Rev. B5 (1972) 195-197.
  • Lattice location of implanted impurities derived from Mössbauer effect measurements, H. de Waard, Proceedings of the I.A.E.A.panel on applications of the Mössbauer effect (I.A.E.A. Vienna 1972) 123-138.
  • Hyperfine interactions of 161 Dy nuclei implanted in iron, P. Inia and H. de Waard in: Angular correlations in Nuclear Disintegration (Ed. H. van Krugten and B. van Nooijen, Wolters-Noordhoff, Groningen, (1971) 519-522.
  • Hyperfine magnetic field at 41K nuclei recoil implanted in nickel, H.G. Devare and H. de Waard, Phys.Stat.Sol. 52 (1972) 395-398.
  • Measurement of the magnetic moment of the 57.6 keV state of 127I by the Mössbauer effect in FeI, N.S. Wolmarans and H. de Waard, Phys.Rev. C6 (1972) 228-231.
  • Perturbed angular correlation measurement of the g-factor of the 668 keV state in 132Xe, H. de Waard, E.N. Kaufman and J.W. Rodgers, Z.Phys. 264 (1973) 423-426.
  • Lattice location of impurities implanted into metals, H. de Waard and L.C. Feldman, Applications of ion beams to metals, Ed. S.T.Picraux, E.P. Eernisse and F.L.Vook, Plenum Press, New York, (1974) 317-351
  • Mössbauer studies with I131 and I125sources implanted in iron, H. de Waard, R.L. Cohen, S.R.Reiuntsema and S.A. Drentje, Phys.Rev. B10 (1974) 3760-3774.
  • Application of a method of frequency modulation Mössbauer spectroscopy in 67Zn to precise determination of the electric quadrupole interaction in 67ZnO, G.J. Perlow, W. Potzel, R.M. Kash and H. de Waard, J. Physique 35 (1974) C6, 197-201.
  • 129I Mössbauer spectroscopy, H. de Waard, Mössbauer Effect Data Index 1973 Ed. G.J. Stevens and V. Stevens, Plenum Press, New York, (1974) 447-480.
  • The investigation of radiation damage and lattice location by nuclear hyperfine interaction techniques, H. de Waard, Physica Scripta 11 (1975) 157-166.
  • Lattice location of xenon impurities implanted in iron derived from Mössbauer effect measurements, S.R. Reintsema, S.A. Drentje, P. Schurer and H. de Waard, Radiation Effects 24 (1975) 145-154.
  • Vacancy trapping and detrapping by 111In implanted in Ni as observed by time differential perturbed angular correlation, C. Hohenemser, A. Arends and H. de Waard, Phys.Rev. B11 (1975) 4522-4524.
  • Perturbed angular correlation studies of 2+ levels of even xenon isotopes, D.M. Gordon, L.S. Eytel, H. de Waard and D.E. Murnick, Phys.Rev.C12 (1975) 628-636.
  • An experimental investigation of the surface magnetization of iron, using the magneto-optical Kerr Effect, H. de Waard, E. Uggerhoj and G.L. Miller, J.Appl.Phys. 46 (1975) 2264-3376.
  • New Cyclotron Produced Sources for Mössbauer spectroscopy, S. Bukshpan, F.H. ten Broek, W. Hilbrants, S.R. Reintsema and H. de Waard, Int.J.Appl.Rad.Is 27 (1976) 15-17.
  • The use of a single crystal iron frame in transient field g-factor measurements; P.C. Zalm, J.L. Eberhardt, R.E. Hortman, G. van Middelkoop and H. de Waard, Physics Letters 60B (1976) 258.
  • Mössbauer studies of 83Rb implanted in iron, S. Bukshpan, W.Hilbrants and H. de Waard, Hyperfine Interactions 2 (1976) 355.
  • Lattice location of 129Cs implanted in iron, S. Bukshpan, W. Hilbrants, S.R. Reintsema and H. de Waard, Hyperfine Interactions 2 (1976) 356-357.
  • In situ Mössbauer effect measurements on sources implanted in iron below 15 K, S.R. Reintsema, H. de Waard and S.A. Drentje, Hyperfine Interactions 2 (1976) 358.
  • Mössbauer studies of 129I atoms implanted in alpha and beta tin, H. de Waard and G.J. Kemerink, Journ. de Physique Colloque C-6, 37 (1967) 879-898.
  • The quadrupole interaction of 57Fe in Ti, H.G. Devare and H. de Waard, Hyperfine Interactions 3 (1977) 63-66.
  • Mössbauer spectroscopy of KrF2 and KrF2-MF5 (M = As,Sb), J. Holloway, G.J. Schrobilgen, S. Bukshpan, W. Hilbrants and H. de Waard, J. Chem.Phys. 66 (1977_ 2627-2630.
  • Hyperfine Interaction of 166Er impurities implanted in iron and nickel, L. Niesen, P.J.W. Kikkert and H. de Waard, Hyperfine Interactions 3 (1977) 109.
  • A multiple purpose velocity transducer for Mössbauer effect measuremenats, H.P. Wit, G. Hoeksema, L. Niesen and H. de Waard, Nuclear Instruments and Methods 141 (1977) 515-518.
  • Damage studies on the system 111InNi, C. Hohenemser, A.R. Arends, H. de Waard, H.G. Devare, F.Pleiter and S.A. Drentje, Hyperfine Interactions 3 (1977) 297-314.
  • On the isomer shifts of 129I impurities implanted in semiconductors, H. de Waard, S. Bukshpan and G.J. Kemerink, Hyperfine Interactions 5 (1977) 45-59.
  • Recoilless fractions for 129 I in the alkali-iodides, G.J. Kemerink and H. de Waard, Proc.Int.Conf. Mössbauer Spectroscopy, Ed. D. Barb and D. Tarina, Central Inst. of Physics, Bucharest, 1977) 551.
  • Lattice location of impurities derived from hyperfine interaction and channeling, H. de Waard, S.R. Reintsema and L.C. Feldman, Hyperfine Interactions 4 (1978) 720-721.
  • Magnetic hyperfine field of 129I impurities in Pd2MnSb, H. de Waard, F.Th. ten Broek and N. Teekens, Hyperfine Interactions 4 (1978) 383-387.
  • Hyperfine fields of 5sp shell impurities substituting Sb in the Heusler alloys Pd2MnSb and PdMnSb, H. de Waard and V. Lakshminarayana, Physics Letters 67A (1978) 219.
  • Isomer shift and electron conversion, F. Pleiter and H. de Waard, Chapter 5c in Mössbauer Isomer shifts Ed. G.K. Shenoy & F. Wagner, North Holland (1978) 253-279.
  • Mössbauer effect studies of the recovery of iron after heavy ion implantation at 7K, S.R. Reintsema, S.A. Drentje and H. de Waard, Hyperfine Interactions 5 (1978)) 167-178.
  • The hyperfine magnetic field of 172Yb in Fe and Ni, H.G. Devare, H. de Waard and L. Niesen, Hyperfine Interactions 5 (1978) 191-197.
  • N.M.R. on oriented 131I nuclei implanted in single crystal iron: observations of vacancy-associated impurity sites, D. Visser, L. Niesen, H. Postma and H. de Waard, Phys.Rev.Letters 41 (1978) 882-885.
  • A Mössbauer study of zenon compounds, H. de Waard, S. Bukshpan, G.J. Schrobilgen, J.L. Holloway and D. Martin, J. Chem.Phys. 70 (1979) 3247-3253.
  • Hyperfine magnetic fields of Sn in the Heusler alloy Pd2Mn0.95SN1.05, H. de Waard, J. de Phys. 40, (1979) C2-233.
  • Mössbauer spectroscopy , H. de Waard, in Site characterization and aggregation ofimplanted atoms in materials (Ed.A. Perez and R. Coussement, Plenum, 1980) 205-222.
  • Structure of lattice effects trapped at In impurities in He-doped Ni and Cu crystals derived from perturbed angular correlation measurements, F. Pleiter, A.R. Arends and H. de Waard, Phys.Letters 77A (1980) 81-84.
  • Calibration of the isomer shift of 83Kr, W.J.J. Spijkervet, F. Pleiter and H. de Waard, Hyperfine Interactions 8 (1980) 173-189.
  • The influence of helium decorated vacancy clusters on the hyperfine interaction of impurties in metals, H. de Waard, F. Pleiter L. Niesen and D.W. Hafemeister, Hyperfine Interactions 9 (1981) 643-650.
  • Hyperfine interaction investigations of helium trapping in metals, H. de Waard in: Nuclear and electron resonance spectroscopies applied to materials science, ed. K.N.Kaufman and G.K. Shenoy (North-Holland, New York, 1981) 199-210.
  • Mössbauer effect evidence of high internal pressure at irom atoms implanted in diamond, B.D. Sawicka, J.A. Sawicki and H. de Waard, Phys.Rev.Lett. 85A (1981) 303-307.
  • Large increase of magnetic hyperfine fields of 5 sp-shell impurities in ferromagnets after vacancy trapping, H. de Waard, D. Hafemeister, L. Niesen and F. Pleiter, Phys.Rev. 24 B (1981) 1274-1277.
  • Anisotropic recoilless fraction and temperature dependent quadrupole interaction of substitutional 129I in Si due to Jahn-Teller distortion, G.J. Kemerink, J.C. de Wit, H. de Waard, D.O. Boerma and L. Niesen, Phys.Lett. 82A (1981) 255-258.
  • Small hyperfine anomaly of the g-factor ratio of first excited and ground states of 129I, H. de Waard and G. Calis, Phys.Lett. 106B (1981) 457-460.
  • Sidebands and quantumbeats of recoilless gamma radiation of 129I, G.L. Zhang, E.H. du Marchie van Voorthuysen and H. de Waard, Phys.Lett. 91A (1982) 417-420.
  • Mössbauer spectroscopy of implanted sources, H. de Waard, Proc.Indian National Science Academy, Special Volume: Int.Conf. On the Appl. of the Mössbauer effect (New Delhi, 1982) 5-20.
  • Tellurium in silicon, Part I: Channeling and Rutherford backscattering studies of tellurium implanted in silicon, G.J. Kemerink, D.O. Boerma, H. de Waard and L. Niesen, Radiation Effects 69 (1983) 101-112.
  • Hyperfine interaction and channeling studies of impurities implanted in silicon, H. de Waard and G.J. Kemerink, Physica 116B (1983) 210-218.
  • Channeling and Rutherford backscattering studies of iodine-implanted silicons, G.J. Kemerink, D.O. Boerma, H. de Waard and L. Niesen, Radiation Effects 70 (1983) 183-195.
  • Mössbauer spectroscopy of laser annealed tellurium implanted silicon (I) 119Sn and 125Te, G.J. Kemerink, H. de Waard, L. Niesen and D.O. Boerma, Hyperfine Interactions 14 (1983) 53-88.
  • Helium decoration of impurities in metals, H. de Waard, F. Pleiter, D.O. Boerma, L. Niesen and G.L. Zhang, Nucl.Instr.Meth. 209-210 (1983) 441-446.
  • Mössbauer studies of impurity-vacancy complexes in ion-implanted platinum, L. Niesen and H. de Waard, Nucl.Instr.Meth. 209-210 (1983) 441-446.
  • Strong oxygen trapping by Sb impurities in silver, L. Niesen and H. de Waard, Hyperfine Interactions 15/16 (1983) 455-458.
  • Mössbauer study of 57Co implanted into hot diamond crystals, J.A. Sawicki, B.D. Sawicka and H. de Waard, Hyperfine Interactions 15/16 (1983) 483-486.
  • Perturbed angular correlation on study of surface magnetization in iron, B.D. Sawicka, J.A. Sawicki, F. Pleiter and H. de Waard, Hyperfine Interactions 15/16 (1983) 639-642.
  • Sideband and quantum-beat measurements with 129mTe and 57Co sources, E.H. du Marchie van Vorthuysen, G.L. Zhang and H. de Waard, Hyperfine Interactns 15/16 (1983) 1025-1028.
  • Vacancy trapping and helium decoration in Sb ion-implanted tungsten studied by Mössbauer spectroscopy, H. de Waard and G.L. Zhang, Hyperfine Interactions 14 (1983) 211-220.
  • A new system for depth-selective conversion electron Mössbauer spectroscopy, S.C. Pancholi, H. de Waard, A. van der Wijk and J. van Klinken, Nucl.Instr.Meth. 221 (1984) 577-581.
  • Anisotropy of the recoil-free fraction in Mössbauer resonance of 67Zn in single crystals of zinc metal, R.V. Pound, L. Niesen, H. de Waard and G.L. Zhang, Phys.Rev. B 29 (1984) 6086-6089.
  • Magnetization behaviour of iron single crystals studied with 131I nuclear orientation and NMR, D. Visser, L. Niesen and H. de Waard, J.Phys.(Met Phys.) 14 (1984) 2419-2432.
  • Test of the optical theory of Mossbauer quantum beats, E.H. de Marchie van Voorthuysen, G.L. Zhang and H. de Waard, Phys.Rev. A 30 (1984) 2356-2365.
  • Mössbauer spectroscopy of Iodine, H. de Waard, Chemical Mossbauer Spectroscopy, Ed. R.H. Herber (Plenum, New York 1984) 295-317.
  • Hyperfine interaction and magneto-optical effect investigation of near-surface magnetization of iron plates, H. de Waard, J.Magn.Magn.Mat. 49 (1985) 50-68.
  • De fysica van de kurketrekker, H. de Waard, NRC-Handelsblad, 3-10-85, suppl. Wetenschap & Onderwijs, blz.1.
  • Formation and properties of isolated molecules in copper, H. Andreasen, L. Niesen and H. de Waard, Hyperfine Interactions 29 (1986) 1319-1323.
  • Debye Waller factors of 129I in CuI, SnTe and the alkali iodides LiI, NaI, KI, RbI and CsI determined by Mössbauer spectroscopy, G.J. Kemerink, N. Ravi and H. de Waard, J.Phys. C., Solid State 19 (1986) 4897-4915.
  • Ion implantation Mössbauer effect studies in - : Mössbauer spectroscopy applied to organic chemistry, Vol. 2 Ed. G.J. Long (Plenum, New York 1987) 1-88.
  • Investigations of ion implanted materials, H. de Waard, Hyperfine Interactions 40 (1988) 31-48.
  • A Mössbauer study of the electronic configuration of Sb donors and acceptors in semicnductors, G.J. Kemerink, H. Andreasen, H. de Waard and G. Weyer, J.Phys. C 21 (1988) 4645-4655.
  • Tin fluoride and tin oxide molecules in noble metals, H. Andreasen, D.O. Boerma, L Niesen , W. Segeth and H. de Waard, Hyperfine Interactions 47 (1989) 69-83.
  • Vacancy trapping by 5sp series impurities in rolled and implanted nickel foils, H. de Waard, G.L. Zhang and R. Huizenga, Hyperfine Interactions 52 (1989) 229-256.
  • A CEMS investigation of 57Fe implanted in Al and Cu at low temperature, H. de Waard and G.L. Zhang, Hyperfine Interactions 1990.
  • Developments in Mössbauer spectroscopy, H. de Waard, Hyperfine Interactions 68 (1991) 143-154.
  • Isolated molecules in metals, H. de Waard, Hyperfine Interactions 72 (1992) 229-237.
  • Coherent resonant scattering, H. de Waard and F. ten Broek, Hyperfine Interactions 80 (1993) 1335-1339.
  • Mössbauer spectroscopy of 170Yb through internal conversion of electrons, J.A. Sawicki, L. Niesen and H. de Waard, Nucl.Instr.Meth. in Phys.Research B, (1993) 454-458.
  • Magnetotactische Bacteriën, H. de Waard, KNAW (1994) 103(1) .
  • Mössbauer spectroscopic studies on three different types of crocoidolite fibres, H. Pollack, H. de Waard and M.Gulumian, SAFFR Joint Symposium (1993) 401-404.
  • Remanence measurements on individual magnetotactic bacteria using a pulsed magnetic field, I.Penninga, H. de Waard, B. Moskowitz, D.Bazylinski and R. Frankel, JMMM (1995) 279-286.

Last updated January 7, 2000; With thanks to Paula de Waard for her administrative help.