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Boulby Dark Matter Collaboration: Publications.

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Papers are grouped as follows:

Where a paper has more than 3 authors, this list names only the first author. Full author listings are also available.
Links to compressed (gzip) PostScript or PDF images are provided where available.
Links to some unpublished talks and transparencies are also provided.

Refereed journal papers.

  1. Coherent interaction of galactic neutrinos with material targets.
    P. F. Smith, J. D. Lewin, Phys. Lett. B 127 (1983) 185-190
  2. Coherent neutrino scattering - relativistic and nonrelativistic.
    P. F. Smith, Nuovo Cimento 83 A (1984) 263-274
  3. Can cosmic neutrinos be detected with superconductors?
    J. D. Lewin, P. F. Smith, Astrophysical Letters 24 (1984) 59-67
  4. Bragg reflection of cosmic neutrinos.
    P. F. Smith, J. D. Lewin, Acta Physica Polonica B 15 (1984) 1201-1214
  5. Prospects for measuring the mass of galactic neutrinos with coherent detectors.
    P. F. Smith, J. D. Lewin, Acta Physica Polonica B 16 (1985) 837-846
  6. Feasibility of detection of solar neutrinos and dark matter with superconducting filaments.
    P. F. Smith, Zeits. Phys. C 31 (1986) 265-275
  7. Comments on a reported measurement of an abnormally large coherent neutrino cross-section.
    P. F. Smith, Phys. Lett. B 183 (1987) 107-109, B 189 (1987) 488
  8. Feasibility of cosmic neutrino detectors based on coherent interaction with superconductors.
    P. F. Smith, J. D. Lewin, Astrophys. J. 318 (1987) 738-743
  9. Rates for inelastic nuclear excitation by dark matter particles.
    John Ellis, R. A. Flores, J. D. Lewin, Phys. Lett. B 212 (1988) 375-380
  10. Tests on low temperature calorimetric detectors for dark matter experiments.
    P. F. Smith et al., Phys. Lett. B 245 (1990) 265-270
  11. Observation of nuclear recoil events from neutron scattering in low temperature calorimetric detectors.
    P. F. Smith et al., Phys. Lett. B 255 (1991) 454-458
  12. Demonstration of nuclear recoil discrimination for dark matter detectors, by measurement of simultaneous ionization and thermal pulses in silicon.
    N. J. C. Spooner et al., Phys. Lett. B 273 (1991) 333-337
  13. COSMO - a program to estimate spallation radioactivity produced in a pure substance by exposure to cosmic radiation on the earth.
    C. J. Martoff, J. D. Lewin, Computer Physics Communications 72 (1992) 96-103
  14. Investigation of voltage amplification of thermal spectra (Luke effect) in a low-temperature calorimetric detector.
    N. J. C. Spooner, G. J. Homer, P. F. Smith, Phys. Lett. B 278 (1992) 382-384
  15. Investigation of a thick Si diode ionization detector at low temperatures for dark matter searches.
    N. J. C. Spooner, G. J. Homer, P. F. Smith, IEEE Trans. Nucl. Sci. 40 (1993) 105-113
  16. Investigation of high-purity Si detectors with ohmic contacts at low temperature for dark matter searches.
    N. J. C. Spooner et al., IEEE Trans. Nucl. Sci. 40 (1993) 275-279
  17. The UVIS scintillation detector - a proposed method of nuclear recoil discrimination for dark matter searches.
    N. J. C. Spooner, P. F. Smith, Phys. Lett. B 314 (1993) 430-435
  18. Liquid xenon as a dark matter detector. Prospects for nuclear recoil discrimination by photon timing.
    G. J. Davies et al., Phys. Lett. B 320 (1994) 395-399
  19. The scintillation efficiency of sodium and iodine recoils in NaI(Tl) for dark matter searches.
    N. J. C. Spooner et al., Phys. Lett. B 321 (1994) 156-160
  20. The scintillation efficiency for calcium and fluorine recoils in CaF2 and carbon and fluorine recoils in C6F6 for dark matter searches.
    G. J. Davies et al., Phys. Lett. B 322 (1994) 159-165
  21. Studies with a low-background Ge detector in the Holborn underground laboratory.
    J. C. Barton, Nucl. Instrum. and Meth. in Phys. Res. A 354 (1995) 530-538
  22. Results from the first stage of a UK Galactic dark matter search using low background sodium iodide detectors.
    J. J. Quenby et al., Phys. Lett. B 351 (1995) 70-76
  23. New limits to Galactic cold dark matter interaction rates.
    J. J. Quenby et al., Astroparticle Physics 5 (1996) 249-253
  24. Improved dark matter limits using pulse shape discrimination in a low background sodium iodide detector.
    P. F. Smith et al., Phys. Lett. B 379 (1996) 299-308
  25. Measurement of Na and I recoil discrimination and detection efficiency in a cooled "UVIS" NaI detector for dark matter searches.
    N. J. C. Spooner et al., Astroparticle Physics 5 (1996) 299-307
  26. Review of mathematics, numerical factors, and corrections for dark matter experiments based on elastic nuclear recoil. [ps.gz] [pdf] (see also corrected §5.2: [ps] [pdf]; and revised spin factors: [ps] [pdf])
    J. D. Lewin, P. F. Smith, Astroparticle Physics 6 (1996) 87-112
  27. Assessment of heavy radioactive elements in sodium iodide scintillators.
    J. C. Barton, Appl. Radiat. Isot. 47 (1996) 997-1002
  28. Demonstration of nuclear recoil discrimination using recoil range in a mixed CaF2 + liquid scintillator gel detector for dark matter searches. [pdf available to subscribers from ScienceDirect]
    N. J. C. Spooner et al., Astroparticle Physics 8 (1997) 13-19
  29. OMNIS - an improved low-cost detector to measure mass and mixing of mu/tau neutrinos from a Galactic supernova. [pdf available to subscribers from ScienceDirect]
    P. F. Smith, Astroparticle Physics 8 (1997) 27-42
  30. Electron diffusion in a low pressure methane detector for particle dark matter. [pdf available to subscribers from ScienceDirect]
    M. J. Lehner, K. N. Buckland, G. E. Masek, Astroparticle Physics 8 (1997) 43-50
  31. WIMP detectors above 100K. [pdf from Elsevier]
    N.J.C. Spooner, Physics Reports 307 (1998) 253-261
  32. Xenon as a detector for dark matter search. [pdf from Elsevier]
    Hanguo Wang, Physics Reports 307 (1998) 263-267
  33. Dark matter experiments at the UK Boulby Mine. [pdf from Elsevier]
    P. F. Smith et al., Physics Reports 307 (1998) 275-282
  34. Measurement of scintillation efficiencies and pulse-shapes for nuclear recoils in NaI(Tl) and CaF2(Eu) at low energies for dark matter experiments. [pdf from Elsevier]
    D. R. Tovey et al., Phys. Lett. B 433 (1998) 150-155
  35. Characteristics of alpha, gamma and nuclear recoil pulses from NaI(Tl) at 10-100 keV relevant to dark matter searches. [pdf from Elsevier]
    V. A. Kudryavtsev et al., Phys. Lett. B 452 (1999) 167-172
  36. Investigation of pulse shapes and time constants for NaI scintillation pulses produced by low energy electrons from beta decay. [pdf from Elsevier]
    N. J. T. Smith et al., Phys. Lett. B 467 (1999) 132-136
  37. Narrow muon bundles from muon pair production in rock. [pdf from Elsevier]
    V. A. Kudryavtsev, E. V. Korolkova, N. J. C. Spooner, Phys. Lett. B 471 (1999) 251-256
  38. A WIMP detector with two-phase xenon. [pdf from Elsevier]
    D. B. Cline et al., Astroparticle Physics 12 (2000) 373-377
  39. NaI dark matter limits and the NAIAD array – a detector with improved sensitivity to WIMPs using unencapsulated NaI. [pdf from Elsevier]
    N. J. C. Spooner et al., Phys. Lett. B 473 (2000) 330-336
  40. Suppressing drift chamber diffusion without magnetic field. [pdf from Elsevier]
    C. J. Martoff et al., Nucl. Instrum. and Meth. in Phys. Res. A 440 (2000) 355-359
  41. Analysis of alpha-emitting isotopes in an inorganic scintillator. [pdf from Elsevier]
    J. C. Barton, J. A. Edgington, Nucl. Instrum. and Meth. in Phys. Res. A 443 (2000) 277-286
  42. Low pressure negative ion time projection chamber for dark matter search. [pdf from PROLA]
    D. P. Snowden-Ifft, C. J. Martoff, J. M. Burwell, Phys. Rev. D 61 (2000) 101301(R)
  43. A possible mechanism for anomalous pulses observed in sodium iodide crystals. [pdf from Elsevier]
    N. J. T. Smith, J. D. Lewin, P. F. Smith, Phys. Lett. B 485 (2000) 9-15
  44. A new model-independent method for extracting spin-dependent cross section limits from dark matter searches. [pdf from Elsevier]
    D. R. Tovey et al., Phys. Lett. B 488 (2000) 17-26
  45. Energy calibration of large underwater detectors using stopping muons. [pdf from Elsevier]
    V. A. Kudryavtsev et al., Phys. Lett. B 494 (2000) 177-180
  46. CsI(Tl) for WIMP dark matter searches. [pdf from Elsevier] [hep-ex/0005031]
    V. A. Kudryavtsev et al., Nucl. Instrum. and Meth. in Phys. Res. A 456 (2001) 272-279
  47. Measurement of carbon disulfide anion diffusion in a TPC. [pdf from Elsevier]
    T. Ohnuki, D. P. Snowden-Ifft, C. J. Martoff, Nucl. Instrum. and Meth. in Phys. Res. A 463 (2001) 142-148
  48. Further studies of the OMNIS supernova neutrino observatory: optimisation of detector configuration and possible extension to solar neutrinos. [pdf from Elsevier]
    P. F. Smith, Astroparticle Physics 16 (2001) 75-96
  49. The scintillation efficiency of carbon and hydrogen recoils in an organic liquid scintillator for dark matter searches. [pdf from Elsevier]
    J. Hong et al., Astroparticle Physics 16 (2001) 333-338
  50. Measurements of scintillation efficiency and pulse shape for low energy recoils in liquid xenon. [pdf from Elsevier]
    D. Akimov et al., Phys. Lett. B 524 (2002) 245-251
  51. Study and suppression of anomalous fast events in inorganic scintillators for dark matter searches. [pdf from Elsevier]
    V. A. Kudryavtsev et al., Astroparticle Physics 17 (2002) 401-408
  52. Table-top neutron source for characterization and calibration of dark matter detectors. [pdf from AIP]
    F. N. Beg et al., Appl. Phys. Lett. 80 (2002) 3009-3011
  53. Direct detection of WIMP dark matter. [pdf from Taylor & Francis]
    B. Morgan, Contemporary Phys. 44 (2003) 219-235
  54. Neutron recoils in the DRIFT detector. [pdf from Elsevier]
    D. P. Snowden-Ifft et al., Nucl. Instrum. and Meth. in Phys. Res. A 498 (2003) 155-164
  55. Simulations of muon-induced neutron flux at large depths underground. [pdf from Elsevier]
    V. A. Kudryavtsev, N. J. C. Spooner, J. E. McMillan, Nucl. Instrum. and Meth. in Phys. Res. A 505 (2003) 688-698
  56. GEANT4 - a simulation toolkit. [pdf from Elsevier]
    S. Agostinelli et al., Nucl. Instrum. and Meth. in Phys. Res. A 506 (2003) 250-303
  57. The NAIAD experiment for WIMP searches at Boulby mine and recent results. [pdf from Elsevier]
    B. Ahmed et al., Astroparticle Physics 19 (2003) 691-702
  58. Measurements of muon flux at 1070 m vertical depth in the Boulby underground laboratory. [pdf from Elsevier]
    M. Robinson et al., Nucl. Instrum. and Meth. in Phys. Res. A 511 (2003) 347-353
  59. Science from detection of neutrinos from supernovae. [pdf from IoP]
    R. N. Boyd et al., J. Phys. G. 29 (2003) 2543-2567
  60. Low energy alphas in the drift detector. [pdf from Elsevier]
    D. P. Snowden-Ifft et al., Nucl. Instrum. and Meth. in Phys. Res. A 516 (2004) 406-413
  61. Sensitivity of the IceCube detector to astrophysical sources of high energy muon neutrinos. [pdf from Elsevier]
    J. Ahrens et al., Astroparticle Physics 20 (2004) 507-532
  62. Low-temperature study of 35 photomultiplier tubes for the ZEPLIN III experiment. [pdf from Elsevier]
    H. M. Araújo et al., Nucl. Instrum. and Meth. in Phys. Res. A 521 (2004) 407-415
  63. Development of a gadolinium-loaded liquid scintillator for solar neutrino detection and neutron measurements. [pdf from Elsevier]
    P. K. Lightfoot et al., Nucl. Instrum. and Meth. in Phys. Res. A 522 (2004) 439–446
  64. Neutron background in large-scale xenon detectors for dark matter searches. [pdf from Elsevier]
    M. J. Carson et al., Astroparticle Physics (in press; 2004)
[UKDMC home page] [Journals] [Reviews] [Conferences] [Preprints] [Theses] [Popular]
Full author listings: [Journals] [Reviews] [Conferences] [Preprints] [Theses] [Popular]

Review articles and invited conference papers.

  1. Possible experiments for direct detection of particle candidates for the galactic dark matter.
    P. F. Smith, Proc. 2nd ESO-CERN Symposium (ESO 1986) 237-263
  2. Status of experimental searches for galactic dark matter.
    P. F. Smith, J. D. Lewin, Proc. 9th Workshop on Grand Unification (World Scientific, 1988)
  3. Terrestrial searches for new stable particles.
    P. F. Smith, Contemp. Phys. 29 (1988) 159-186
  4. Dark matter detector development in the UK.
    P. F. Smith, Proc. Workshop Particle Astrophysics (Berkeley 1988) 47-48
  5. Dark matter detection.
    P. F. Smith, J. D. Lewin, Physics Reports 187 (1990) 203-280, 368
  6. Implications of new particle mass limits for dark matter searches.
    P. F. Smith, Proc. ESO-CERN Topical Workshop on LEP and the Universe: CERN-TH 5709/90 (1990) 57-60
  7. The search for non-baryonic dark matter.
    T. J. Sumner, Nucl. Phys. B (Proc. Suppl.) 22 B (1992) 165-177
  8. Prospects for relic neutrino detection.
    P. F. Smith, Trends in Astroparticle Physics (World Scientific, 1992) 311-325
  9. Supernova detectors based on coherent nuclear recoil.
    P. F. Smith, J. D. Lewin, Trends in Astroparticle Physics - SuperNova Watch Workshop (World Scientific, 1992) 581-589
  10. GaAs ionization detectors and their application to dark matter searches.
    N. J. C. Spooner et al., Proc. 20th INFN workshop on GaAs detectors for HEP (Editions Frontières 1992) 156-181
  11. The UK dark matter search for WIMPs.
    T. J. Sumner, C. C. Zammit, Proc. Symposium on Interface of Astrophysics with Nuclear and Particle Physics: PSI-Proc. 92-05 (1992) 401-415
  12. GaAs revisited as a room temperature X-ray detector.
    T. J. Sumner et al., Nucl. Instrum. and Meth. in Phys. Res. A 322 (1992) 514-517
  13. New detectors for neutrinos and dark matter.
    P. F. Smith, J. D. Lewin, Phil. Trans. Roy. Soc. Lond. A 346 (1994) 111-120
  14. Strategies for direct detection of WIMP dark matter - techniques above 100K.
    P. F. Smith, Proc. 1st Int. Symp. on Sources of Dark Matter (World Scientific, 1995) 227-229
  15. Searches for particle dark matter: progress, future prospects and ideas.
    N. J. C. Spooner, 6th Int. Workshop on Neutrino Telescopes (Venice, 1994) 139-164
  16. Direct detection of WIMP dark matter - techniques above 100 K. [pdf from Elsevier]
    P. F. Smith, Nucl. Phys. B (Proc. Suppl.) 51B (1996) 284-293
    [Proc. 2nd Int. Symp. on Sources of Dark Matter (Santa Monica, 1996)]
  17. Non-cryogenic dark matter searches.
    N. J. C. Spooner, Cosmo 97 - Particle Physics and the Early Universe (World Scientific, 1998) 155-171
  18. Non-cryogenic WIMP detectors.
    N. J. C. Spooner, Proc. PASCOS98, Boston, Feb. 22-29 (1998; World Scientific, to be published)
  19. Detection of weakly interacting massive particles in the halo of our galaxy-techniques above ~100 K
    T. J. Sumner, 2nd Int. Workshop on Identification of Dark Matter (World Scientific, 1999) 227-240
  20. Low Energy Particles from the Universe.
    N. J. T. Smith, Proc. ICHEP2000, Osaka (World Scientific, 2001) 287-296
  21. Dark Matter detection.
    P. F. Smith, Proc. XXIV Assembly of The International Astronomical Union (Manchester, 2000, to be published)
  22. Experimental Methods for Particle Dark Matter Detection. [abstract]
    D. Yu. Akimov, Instrum. Exp. Tech. 44 (2001) 575-617
  23. Experimental Dark Matter Searches.
    T. J. Sumner, Proc. XIII Rencontre de Blois - Frontiers of the Universe (Blois, 2001, to be published)
  24. Experimental Searches for Dark Matter. [http://www.livingreviews.org/Articles/Volume5/2002-4sumner]
    T. J. Sumner, Living Rev. Relativity 5 (2002) 4
  25. Dark matter detectors and the use of interaction location information for background suppression. [pdf from Elsevier]
    N. J. T. Smith, 6th Int. Con. on Position-Sensitive Detectors, Nucl. Instrum. and Meth. in Phys. Res. A 513 (2003) 215-221
  26. Direct detection of weakly interacting massive particles using non-cryogenic techniques. [pdf from ingenta]]
    P. F. Smith, Phil. Trans. R. Soc. Lond. A 361 (2003) 2591-2606
  27. Dark Matter Searches at Boulby Mine - Towards 1 Tonne Xenon and Directional Detectors. [pdf]
    N. J. C. Spooner, 31st SLAC Summer Institute on Particle Physics (SLAC, Jul/Aug 2003)
  28. Detection Issues: Next Generation?
    N. J. C. Spooner, Kavli-CERCA Conference on the Future of Cosmology (Case Western Reserve University, Oct 2003)
[UKDMC home page] [Journals] [Reviews] [Conferences] [Preprints] [Theses] [Popular]
Full author listings: [Journals] [Reviews] [Conferences] [Preprints] [Theses] [Popular]

Other conference papers.

  1. Future prospects for measuring the mass of galactic neutrinos with coherent detectors.
    P. F. Smith, J. D. Lewin, Proc. Int. Europhysics Conf. on High Energy Physics, (Brighton, 1983) 436
  2. Prospects for experiments to detect dark matter particle candidates.
    P. F. Smith, Phil. Trans. Roy. Soc. Lond. A 320 (1986) 499-502
  3. Direct detection techniques for Galactic dark matter.
    P. F. Smith, Proc. 7th Moriond Workshop: New and Exotic Phenomena (Editions Frontières, 1987) 233-242
  4. Aspects of bolometric detectors.
    A. D. Caplin, Proc. 7th Moriond Workshop: New and Exotic Phenomena (Editions Frontières, 1987) 249-254
  5. The conventional limits for coherent scattering cross sections.
    P. F. Smith, Proc. 7th Moriond Workshop: New and Exotic Phenomena (Editions Frontières, 1987) 265-269
  6. Work in the UK on low temperature dark matter detectors.
    S. F. J. Read et al., Proc. Workshop on Low Temperature Detectors for Neutrinos and Dark Matter II (Editions Frontières, 1988), 335-343
  7. The development of Si thermistor detector arrays for a UK dark matter experiment.
    C. C. Zammit et al., Proc. E-MRS Symposium on Superconducting and Low-Temperature Particle Detectors (Elsevier, 1989) 85-102
  8. Development of low temperature nuclear recoil detectors for the UK dark matter experiment.
    N. J. C. Spooner et al., Proc. Workshop on Low Temperature Detectors for Neutrinos and Dark Matter III (Editions Frontières, 1989) 281-288
  9. Development of underground dark matter detectors in the UK.
    N. J. C. Spooner et al., Proc. Workshop on Theoretical and Phenomenological Aspects of Underground Physics (Editions Frontières, 1989) 381-386
  10. Development of a dark matter experiment in the UK.
    N. J. C. Spooner et al., XXI ICRC 10 (Adelaide 1990) 264-267
  11. Particle Astronomy - introductory remarks.
    P. F. Smith, B. Sadoulet, Texas/ESO-CERN Symposium, Ann. NY Acad. Sci. 647 (1991) 323-324
  12. Prospects for relic neutrino detection.
    P. F. Smith, Texas/ESO-CERN Symposium, Ann. NY Acad. Sci. 647 (1991) 425-435
  13. Variable range hopping conductivity in Si:As bolometers.
    C. C. Zammit et al., Physica B 165/6 (1990) 317-318
  14. Low background underground facilities for direct searches of dark matter.
    P. D. Barnes, Jr. et al., Proc. 1990 summer study on HEP - Research directions for the decade. (World Scientific, 1992) 311-317
  15. Ionization and thermal detection of dark matter.
    N. J. C. Spooner, 1990 summer study on HEP (Snowmass, 1990; unpublished)
  16. Bulk GaAs ionization detectors for WIMP searches.
    N. J. C. Spooner et al., Nucl. Instrum. and Meth. in Phys. Res. A 310 (1991) 227-231
  17. The development of mK Si bolometers for future X-ray array devices.
    C. C. Zammit et al., Nucl. Instrum. and Meth. in Phys. Res. A 310 (1991) 244-248
  18. The development of mK Ge and Si bolometers for the UK dark matter programme.
    C. C. Zammit et al., Low Temperature Detectors for Neutrinos and Dark Matter IV (LTD-4) (Editions Frontières 1991) 135-143
  19. Demonstration of nuclear recoil discrimination for dark matter detectors by measurement of simultaneous ionization and thermal pulses.
    N. J. C. Spooner et al., Low Temperature Detectors for Neutrinos and Dark Matter IV (LTD-4) (Editions Frontières 1991) 165-172
  20. A comparison of sodium iodide and germanium low background counting systems.
    J. C. Barton, J. Phys. G 17 Suppl. (1991) S415-S418
  21. The UK underground dark matter program at Boulby.
    T. J. Sumner et al., XXII ICRC 4 (Dublin 1991) 722-725
  22. Recent developments using GaAs as an x-ray detector.
    T. J. Sumner et al., SPIE 1549 (1991) 256-264
  23. The performance of mK Si bolometers as X-ray and exotic particle detectors.
    C. C. Zammit et al., SPIE 1549 (1991) 274-282
  24. Construction of an experiment to detect the lightest Supersymmetric Particle.
    J. J. Quenby et al., XXIII ICRC 4 (Calgary, 1993) 650-653
  25. A proposed dark matter detector with range discrimination in a scintillator mixture.
    N. J. C. Spooner, P. F. Smith, J. D. Lewin, XXIII ICRC 4 (Calgary, 1993) 760-763
  26. STEP spin coupling experiment.
    C. Speake et al., 13th Moriond Workshop: Perspectives in Neutrinos Atomic Physics and Gravitation (Editions Frontières, 1993) 445-451
  27. Development of a dark matter detector using a Si target.
    P. Stefanyi et al., Physica B 194 (1994) 9-10
  28. Development of a Si bolometer for dark matter detection.
    P. Stefanyi et al., Physica B 194 (1994) 161-162
  29. Development of scintillator dark matter detectors.
    N. J. C. Spooner et al., The Dark Side of the Universe (R. Bernabei, C. Tao, eds.; World Scientific, 1994) 234-242
  30. Development of scintillation detectors for dark matter searches at Boulby mine.
    N. J. C. Spooner et al., Third International Workshop on Theory and Phenomenology in Astroparticle and Underground Physics, Nucl. Phys. B (Proc. Suppl.) 35 (1994) 162-164
  31. Implications of carrier mobility limitations for GaAs as an X-ray detector
    S. M. Grant et al., SPIE 2006 (1994) 40-50
  32. LPE GaAs as an x-ray detector for astronomy.
    T. J. Sumner et al., Nucl. Instr. Meths. in Phys. Res. A348 (1994) 518-521
  33. Latest limits from the UK underground NaI detector.
    T. J. Sumner et al., Proc. XXIX Rencontre de Moriond: Particle Astrophysics Atomic Physics and Gravitation (Editions Frontières 1994) 163-167
  34. Measurement of nuclear recoil response of dark matter scintillating targets using neutron scattering.
    G. J. Davies et al., Proc. 1st Int. Symp. on Sources of Dark Matter (World Scientific, 1995) 278-287
  35. Dark matter and neutrino detection with liquid xenon.
    J. Park et al., Proc. 1st Int. Symp. on Sources of Dark Matter (World Scientific, 1995) 288-295
  36. The SCE experiment on STEP.
    C. C. Speake et al., Proc. STEP Symposium, Pisa (ESA, 1994, in press)
  37. Searching for spin-dependent forces: the SQUARE, SSPIN, and SSCE proposals.
    C. C. Speake, T. J. Sumner, X. Xu, Proc. Symposium on Future Fundamental Physics Missions in Space ... (1994, in press)
  38. NaI limits to cold galactic dark matter interaction rates.
    J. J. Quenby et al., XXIV ICRC 1 (Rome, 1995) 874-877
  39. On the calculation of spin-coupling forces.
    D. Shaul et al. Classical and Quantum Gravity 13 (1996) A107-A112
  40. Recent results from UK dark matter experiments in the Boulby mine.
    G. J. Davies et al., HEP '95, Brussels( World Scientific, 1996) 397-398
  41. Measurement of Na and I Recoil Discrimination and Detection Efficiency in a Cooled `UVIS' NaI Detector for Dark Matter Searches.
    N. J. C. Spooner et al., IEEE Nucl. Sci. Symp. & Medical Imaging Conf. Record 1995 Vol. 1 253-257
  42. New dark matter limits from the Boulby NaI detectors. [pdf from Elsevier]
    N. J. C. Spooner et al., Nucl. Phys. B (Proc. Suppl.) 48 (1996) 64-66
  43. Statistical techniques developed by the UKDMC to calculate the 90% c.l. upper limit of the WIMP component of the Galactic dark matter. [pdf from Elsevier]
    N. J. T. Smith, C. H. Lally, G. J. Davies, Nucl. Phys. B (Proc. Suppl.) 48 (1996) 67-69
  44. Dark Matter Limits from the NaI detectors at Boulby.
    N. J. C. Spooner et al., 2nd Workshop on The Dark Side of the Universe (World Scientific, 1996) 160-169
  45. Radiopurification of NaI.
    I. M. Blair, J. A. Edgington, N. J. C. Spooner, 2nd Workshop on The Dark Side of the Universe (World Scientific, 1996)
  46. New limits to interaction rates from UK dark matter experiments.
    T. Ali et al., Proc. XVI Moriond Workshop: Dark Matter in Cosmology, Quantum measurements and Experimental Gravitation (Editions Frontières, 1996) 85-89
  47. Comparison of nuclear recoil discrimination in sodium iodide, liquid xenon and gaseous track detectors.
    P. F. Smith, Int. Workshop on Identification of Dark Matter (World Scientific, 1997) 335-344
  48. Further reduction in dark matter limits from sodium iodide experiments. [ps.gz] [pdf]
    N. J. T. Smith et al., Int. Workshop on Identification of Dark Matter (World Scientific, 1997) 385-390
  49. Actinide content of NaI(Tl) scintillators: determination and prospects for reduction.
    J. C. Barton, I. M. Blair, J. A. Edgington, Int. Workshop on Identification of Dark Matter (World Scientific, 1997) 391-396
  50. The ZEPLIN detector - a proposed high sensitivity dark matter detector in the Boulby mine based on proportional scintillation in liquid xenon.
    W. G. Jones et al., Int. Workshop on Identification of Dark Matter (World Scientific, 1997) 428-433
  51. Measurements of carbon scintillation efficiency and anisotropy in stilbene for WIMP searches with direction sensitivity.
    N. J. C. Spooner, J. W. Roberts, D. R. Tovey, Int. Workshop on Identification of Dark Matter (World Scientific, 1997) 481-486
  52. Pulse-shape discrimination in a mixed scintillator dark matter detector. [ps.gz] [pdf]
    D. R. Tovey, N. J. C. Spooner, J. W. Roberts, Int. Workshop on Identification of Dark Matter (World Scientific, 1997) 551-556
  53. Dark matter scintillator experiments with APDs.
    T. J. Sumner, T. Ali, Int. Workshop on Identification of Dark Matter (World Scientific, 1997) 557-562
  54. A low cost detection system for observation of the tau & mu neutrino time profile from a galactic supernova.
    P. F. Smith, Int. Workshop on Identification of Dark Matter (World Scientific, 1997) 602-608
  55. Probing for WIMP interaction rates below 10/kg/day at Boulby mine. [ps.gz] [pdf]
    D. R. Tovey et al., Aspects of Dark Matter in Astro and Particle Physics (Heidelberg 1996) (World Scientific, 1997) 499
  56. Current Limits on the Cold Dark Matter Flux Obtained by the UK Collaboration.
    J. J. Quenby et al., XXV ICRC 7 (Durban 1997) 169-172 (Paper Code: HE 5.2.1)
  57. A supernova burst observatory to study µ and tau neutrinos. [ps.gz] [pdf]
    R. N. Boyd et al., 18th Texas Symposium on Relativistic Astrophysics and Cosmology (World Scientific, to be published)
  58. New limits on the Wimp Cold Dark Matter Interaction Cross Section from the UK Experiment
    T. Ali et al., Cosmo 97 - Particle Physics and the Early Universe (World Scientific, 1998) 172-178
  59. Status report and recent results from the UK Dark Matter Collaboration.
    G. J. Davies et al., HEP 97 (Jerusalem) (Springer-Verlag, 1999) 989-992
  60. Gadolinium loaded liquid scintillator detector prototype for OMNIS.
    A. S. Murphy et al., 2nd Oak Ridge Symposium on Atomic and Nuclear Astrophysics (Institute of Physics, 1998) 593-597
  61. Current limits on the cold dark matter interaction cross section obtained by the UK collaboration. [pdf from Elsevier]
    T. J. Sumner et al., TAUP '97, Nucl. Phys. B (Proc. Suppl.) 70 (1999) 74-78
  62. The CASPAR Recoil Discrimination Detector for WIMP Searches with Calcium and Fluorine. [pdf from Elsevier]
    D. R. Tovey et al., TAUP '97, Nucl. Phys. B (Proc. Suppl.) 70 (1999) 111-113
  63. OMNIS - a galactic supernova observatory. [ps.gz] [pdf]
    P. F. Smith, Proc. Ringberg Castle Neutrino Astrophysics Workshop (Munich 1998) 165-169
  64. MACHO limits on planetary mass disk dark matter.
    M. J. Lehner et al., Sources and Detection of Dark Matter in the Universe (North Holland, 1998) 355-357
  65. Scintillation two-phase xenon detector with gamma and electron-background rejection for dark matter search.
    D. Akimov et al., Sources and Detection of Dark Matter in the Universe (North Holland, 1998) 461-464
  66. Future neutrino astrophysics projects at the UK Boulby Mine.
    P. F. Smith, et al., Sources and Detection of Dark Matter in the Universe (North Holland, 1998) 465-469
  67. The DRIFT Project: Detecting WIMPS with a Directional Detector. [ps.gz] [pdf]
    M. J. Lehner et al., 2nd International Conference on Dark Matter in Astro and Particle Physics (Institute of Physics, 1999) 767-771
  68. Dark Matter Search at Boulby Mine. [ps.gz] [pdf]
    I. Liubarsky et al., 2nd International Conference on Dark Matter in Astro and Particle Physics (Institute of Physics, 1999) 780-784
  69. Is the cluster missing mass baryonic? EUV evidence reconsidered.
    J. J. Quenby et al., 2nd Int. Workshop on Identification of Dark Matter (World Scientific, 1999) 137-143
  70. Searches for Dark Matter at Boulby Mine - Investigation of Anomalous Events in NaI.
    N. J. C. Spooner et al., 2nd Int. Workshop on Identification of Dark Matter (World Scientific, 1999) 307-315
  71. An Advanced WIMP Detector Using Liquid Xenon - ZEPLIN.
    N. J. T. Smith et al., 2nd Int. Workshop on Identification of Dark Matter (World Scientific, 1999) 335-340
  72. The DRIFT Concept - Sensitive WIMP Dark Matter Search with a Gas Detector.
    C. J. Martoff et al., 2nd Int. Workshop on Identification of Dark Matter (World Scientific, 1999) 389-394
  73. Preliminary Tests of the DRIFT Concept.
    D. P. Snowden-Ifft et al., 2nd Int. Workshop on Identification of Dark Matter (World Scientific, 1999) 395-400
  74. Future Dark Matter and Neutrino Physics Experiments at the UK Boulby Mine.
    P. F. Smith, 2nd Int. Workshop on Identification of Dark Matter (World Scientific, 1999) 613-619
  75. Light Output and Pulse Shape Properties of Cryogenic NaI Scintillation Crystals for Dark Matter Searches. [ps]
    D. R. Tovey et al., 2nd Int. Workshop on Identification of Dark Matter (World Scientific, 1999) 649-654
  76. NAIAD: an advanced sodium iodide scintillation detector with improved sensitivity to WIMP dark matter.
    C. D. Peak et al., IEEE Nucl. Sci. Symp. Conference Record 2000 Vol. 1 148-153
  77. Dark matter experiments at the UK Boulby Mine: UK Dark Matter Collaboration. [pdf]
    J. J. Quenby et al., 26th ICRC 2 (Utah 1999) 269-272 (Paper Code: HE 5.1.01)
  78. Pulse Shape Discrimination In NaI And Applications To Cold Dark Matter Detection. [pdf]
    T. J. Sumner et al., 26th ICRC 2 (Utah 1999) 508-511 (Paper Code: HE 6.4.03)
  79. Development of Background Discrimination Techniques in Liquid Xenon Cold Dark Matter Detectors. [pdf]
    T. J. Sumner et al., 26th ICRC 2 (Utah 1999) 516-519 (Paper Code: HE 6.4.06)
  80. Galaxy Cluster Cosmic-rays, Hot Gas, X-rays and Collisions. [pdf]
    T. J. Sumner et al., 26th ICRC 4 (Utah 1999) 48-51 (Paper Code: OG 2.4.02)
  81. Progress report from the UK Dark Matter Search at Boulby Mine. [pdf from Elsevier]
    I. Liubarsky et al., TAUP '99, Nucl. Phys. B (Proc. Suppl.) 87 (2000) 64-66
  82. A WIMP detector with two-phase liquid xenon. [pdf from Elsevier]
    D. B. Cline, TAUP '99, Nucl. Phys. B (Proc. Suppl.) 87 (2000) 114-116
  83. Recent results from the UK dark matter search at Boulby mine. [ps.gz] [pdf]
    N. J. T. Smith et al., EPS99 (Tampere, Finland 1999)
  84. Progress on the Boulby Mine Dark Matter Experiments. [pdf]
    N. J. C. Spooner et al., 4th Int. Symp. Sources and Detection of Dark Matter/Energy in the Universe (Springer, 2001) 365-377
  85. Design of the ZEPLIN II detector
    D. B. Cline et al., 4th Int. Symp. Sources and Detection of Dark Matter/Energy in the Universe (Springer, 2001) 453-460
  86. Development of a two-phase xenon discriminating detector for use in dark matter searches at the Boulby underground laboratory.
    D. Y. Akimov et al., 4th Int. Symp. Sources and Detection of Dark Matter/Energy in the Universe (Springer, 2001) 461-468
  87. Future Neutrino Astrophysics Projects at the UK Boulby Mine.
    P. F. Smith et al., 4th Int. Symp. Sources and Detection of Dark Matter/Energy in the Universe (Springer, 2001) 522-539
  88. Experience with the UK Boulby salt mine, and plans for improved facilities.
    P. F. Smith, Workshop on the Next Generation Underground Laboratory in the US (Carlsbad, New Mexico, 2000)
  89. Dark matter detection. [ps.gz] [pdf]
    N. J. C. Spooner, Proc. ICHEP2000, Osaka (World Scientific, 2001) 1018-1023
  90. Current status of the DRIFT project and UKDMC dark matter search.
    M. J. Lehner et al., 3rd Int. Conf. on Dark Matter in Astro- and Particle Physics (Springer-Verlag, 2001) 590-597
  91. ZEPLIN II and amplification of primary scintillation.
    J. K. Woo et al., 3rd Int. Conf. on Dark Matter in Astro- and Particle Physics (Springer-Verlag, 2001) 615-622
  92. Recent advances in our knowledge of the cosmological parameters: do we know it all already?
    M. Rowan-Robinson, 3rd Int. Workshop on Identification of Dark Matter (World Scientific, 2001) 20-29
  93. The MACHO project 5.7 year LMC results.
    M. J. Lehner et al., 3rd Int. Workshop on Identification of Dark Matter (World Scientific, 2001) 248-252
  94. A new model-independent method for extracting spin-dependent cross section limits from dark matter searches.
    D. R. Tovey et al, 3rd Int. Workshop on Identification of Dark Matter (World Scientific, 2001) 291-296
  95. UKDMC dark matter search with inorganic scintillators. [ps] [pdf]
    V. A. Kudryavtsev et al., 3rd Int. Workshop on Identification of Dark Matter (World Scientific, 2001) 337-342
  96. ZEPLIN-I: a single phase liquid xenon detector for dark matter search.
    I. Ivaniouchenkov et al., 3rd Int. Workshop on Identification of Dark Matter (World Scientific, 2001) 433-437
  97. Scintillation characteristics for low energy recoils in liquid xenon. Preliminary results.
    R. Lüscher et al., 3rd Int. Workshop on Identification of Dark Matter (World Scientific, 2001) 446-451
  98. ZEPLIN-III: a two-phase xenon dark matter detector.
    T. J. Sumner (for the Boulby Dark Matter Collaboration), 3rd Int. Workshop on Identification of Dark Matter (World Scientific, 2001) 452-456
  99. Measurements with a two-phase xenon prototype dark matter detector.
    A. S. Howard et al., 3rd Int. Workshop on Identification of Dark Matter (World Scientific, 2001) 457-462
  100. Neutron recoils in the DRIFT detector.
    D. P. Snowden-Ifft et al., 3rd Int. Workshop on Identification of Dark Matter (World Scientific, 2001) 463-474
  101. The scintillation efficiency of carbon and hydrogen recoils in an organic liquid scintillator.
    J. Hong et al., 3rd Int. Workshop on Identification of Dark Matter (World Scientific, 2001) 475-480
  102. Present status and future plans of the Boulby underground laboratory.
    J. W. Roberts et al., 3rd Int. Workshop on Identification of Dark Matter (World Scientific, 2001) 590-592
  103. Prospects for a large Xe detector.
    T. J. Sumner, 3rd Int. Workshop on Identification of Dark Matter (World Scientific, 2001) 603-605
  104. The SIREN solar neutrino experiment.
    I. Liubarsky et al., 3rd Int. Workshop on Identification of Dark Matter (World Scientific, 2001) 618-625
  105. The potential of liquid xenon for WIMP search: the ZEPLIN diagnostic array. [ps]
    R. Lüscher et al., EuroConference on Frontiers in Particle Astrophysics and Cosmology, Nucl. Phys. B (Proc. Suppl.) 95 (2001) 233-236
  106. ZEPLIN-I: A Single Phase Liquid Xe Detector for Dark Matter Search. [pdf]
    I. Ivaniouchenkov et al., IEEE 2000 Nucl. Sci. Symp. & Medical Imaging Conf. Record 2000 Vol. 1 6/122-6/124
  107. UK work on OMNIS.
    P. F. Smith, Physics Potential of Supernova II Neutrino Detection (Marina del Rey, 2001)
  108. Facilities and experiments at the UK Boulby Mine.
    N. J. T. Smith, Physics Potential of Supernova II Neutrino Detection (Marina del Rey, 2001)
  109. Limits on WIMP Dark Matter.
    N. J. C. Spooner, V. A. Kudryavtsev, HEP2001 (Budapest, 2001)
  110. Update on NaI, ZEPLIN and DRIFT.
    N. J. C. Spooner, The Future of Particle Physics (Snowmass 2001)
  111. UKDMC dark matter search with inorganic scintillators. [pdf] [ps]
    V. A. Kudryavtsev et al., 27th ICRC (Hamburg, 2001) 1551-1554
  112. Galactic Dark Matter searches in the Boulby Mine. [pdf - 6 MB]
    J. J. Quenby (for the Boulby Dark Matter Collaboration), 27th ICRC (Hamburg, 2001) 1562-1565
  113. Measurements with a two phase xenon prototype dark matter detector. [pdf - 8 MB]
    T. J. Sumner et al., 27th ICRC (Hamburg, 2001) 1570-1573
  114. Status of Dark Matter Searches in the Boulby Mine. [ps.gz] [pdf from Elsevier]
    S. P. Hart (for the Boulby Dark Matter Collaboration), TAUP 2001, Nucl. Phys. B (Proc. Suppl.) 110 (2002) 91-93
  115. Monte Carlo Studies of ZEPLIN III. [pdf from Elsevier]
    J. Dawson et al., TAUP 2001, Nucl. Phys. B (Proc. Suppl.) 110 (2002) 109-111
  116. Neutrino Astroparticle Physics at Boulby Mine. [ps.gz] [pdf from Elsevier]
    R. Lüscher et al., TAUP 2001, Nucl. Phys. B (Proc. Suppl.) 110 (2002) 423-425
  117. The UKDMC xenon programme - new WIMP limits and progress towards 1 tonne.
    N. J. C. Spooner (on behalf of UKDM and Boulby collaborations), Int. Workshop on Technique and Applications of Xenon Detectors (World Scientific, 2002) 68-77
  118. DRIFT: a dark matter detector with directional sensitivity.
    B. Morgan et al., Int. Workshop on Technique and Applications of Xenon Detectors (World Scientific, 2002) 78-92
  119. Liquid Xenon for WIMP Searches.
    R. Lüscher et al., Les Houches Workshop on Neutrino Particle Astrophysics, 2002
  120. New Limits and Progress from the Boulby Dark Matter Programme.
    N. J. C. Spooner, Les Houches Workshop on Neutrino Particle Astrophysics, 2002
  121. ZEPLIN III - A two phase xenon dark matter detector.
    J. V. Dawson et al., 4th International Heidelberg Conference On Dark Matter In Astro and Particle Physics 485-491 (Springer-Verlag 2002)
  122. Zeplin IV : A One-Ton Ultimate WIMP Detector.
    D. B. Cline, 4th International Heidelberg Conference On Dark Matter In Astro and Particle Physics 492-498 (Springer-Verlag 2002)
  123. Current Status and Results of the UK Based Dark Matter Direct Detection Searches and the Boulby Underground Facility. [pdf - 9 MB]
    N. J. T. Smith (for the Boulby Dark Matter Collaboration), 4th International Heidelberg Conference On Dark Matter In Astro and Particle Physics 499-508 (Springer-Verlag 2002)
  124. Recent Results of the Dark Matter Search with Nal(Tl) Detectors at Boulby. [pdf from Elsevier]
    M. Carson et al., Dark Matter 2002, Nucl. Phys. B (Proc. Suppl.) 124 (2003) 193-196
  125. ZEPLIN I.
    S. P. Hart et al., 5th Int. Symp. Sources and Detection of Dark Matter/Energy in the Universe (Marina del Rey, California, 20-22 Feb 2002)
  126. Simulation Results with ZEPLIN II. [pdf from Elsevier]
    Youngho Seo, H. Wang, D. B. Cline, Dark Matter 2002, Nucl. Phys. B (Proc. Suppl.) 124 (2003) 221-224
  127. First Results from the DRIFT Detector. [pdf from Elsevier]
    D. P. Snowden-Ifft et al., Dark Matter 2002, Nucl. Phys. B (Proc. Suppl.) 124 (2003) 225-228
  128. The Status of ZEPLIN II and ZEPLIN IV Study. [pdf from Elsevier]
    Hanguo Wang et al., Dark Matter 2002, Nucl. Phys. B (Proc. Suppl.) 124 (2003) 229-232
  129. ZEPLIN III - An Advanced Two-Phase Xenon Detector For Dark Matter.
    T. J. Sumner, 5th Int. Symp. Sources and Detection of Dark Matter/Energy in the Universe (Marina del Rey, California, 20-22 Feb 2002)
  130. Drift II - A Hundred Kilogram Gas Detector for WIMP Dark Matter Searching Deep into SUSY Territory.
    C. J. Martoff, 5th Int. Symp. Sources and Detection of Dark Matter/Energy in the Universe (Marina del Rey, California, 20-22 Feb 2002)
  131. Statistical issues in dark matter detection. [pdf from IoP]
    D. R. Tovey, N. J. T. Smith, J. Phys. G: Nucl. Part. Phys. 28 (2002) 2723–2731
  132. An Xe detector for WIMP search. [pdf]
    D. B. Cline et al., IEEE Trans. Nucl. Sci. 49 (2002) 1238-1242
  133. Searches for Supersymmetry at the LHC.
    D. R. Tovey (for ATLAS and CMS), 4th Int. Workshop on Identification of Dark Matter (World Scientific, 2003) 138-143
  134. NaIAD experiment for WIMP search at Boulby mine and recent results.
    M. Robinson et al., 4th Int. Workshop on Identification of Dark Matter (World Scientific, 2003) 284-289
  135. Latest results from ZEPLIN I, a liquid Xenon Detector for Dark Matter Searches at the Boulby Mine.
    N. J. T. Smith (for the UK Dark Matter Collaboration), 4th Int. Workshop on Identification of Dark Matter (World Scientific, 2003) 302-307
  136. DRIFT I, a Direction-Sensitive Dark Matter Detector: Current Status.
    T. B. Lawson (for the DRIFT Collaboration), 4th Int. Workshop on Identification of Dark Matter (World Scientific, 2003) 338-344
  137. The ZEPLIN II Liquid Xenon Dark Matter Detector.
    H. Wang et al., 4th Int. Workshop on Identification of Dark Matter (World Scientific, 2003) 363-370
  138. Liquid Xenon for WIMP Searches: Measurement with a Two- Phase Prototype.
    D. Yu. Akimov et al., 4th Int. Workshop on Identification of Dark Matter (World Scientific, 2003) 371-377
  139. Xenon Dark Matter Detector Technology Review.
    T. J. Sumner, 4th Int. Workshop on Identification of Dark Matter (World Scientific, 2003) 396-401
  140. Status of the Boulby Underground Laboratory.
    S. M. Paling (for the UK Dark Matter Collaboration), 4th Int. Workshop on Identification of Dark Matter (World Scientific, 2003) 440-445
  141. Neutron Detection for Dark Matter and Neutrino Experiments at the Boulby Mine.
    A. St. J. Murphy, P. F. Smith, D. P. Snowden­Ifft, 4th Int. Workshop on Identification of Dark Matter (World Scientific, 2003) 446-451
  142. Neutron Background at Boulby Mine.
    V. A. Kudryavtsev et al., 4th Int. Workshop on Identification of Dark Matter (World Scientific, 2003) 477-482
  143. Detection of Relic Neutrinos, Solar Neutrinos and WIMPs with Levitated Granules.
    P. F. Smith, 4th Int. Workshop on Identification of Dark Matter (World Scientific, 2003) 610-615
  144. Future of Non-Cryogenic and Directional Dark Matter Detectors.
    M. Robinson, N. J. C. Spooner, 4th Int. Workshop on Identification of Dark Matter (World Scientific, 2003) 616-625
  145. Development of a two-phase xenon dark matter detector. [abstract]
    D. Yu. Akimov et al., 3rd Int. Conf. Nonaccel. New Phys., Phys. Atom. Nucl. 66 (2003) 497-499
  146. Galactic dark matter searches with gas detectors.
    B. Morgan (on behalf of the DRIFT collaboration), Lake Louise Winter Institute (Feb 2003)
  147. Dark Matter Search at Boulby Mine. (astro-ph/0305310) [pdf]
    R. Lüscher (for the Boulby Dark Matter Collaboration), XXXVIII Rencontres de Moriond (les Arcs, March 2003)
  148. OMNIS, The observatory for multiflavour neutrinos from supernovae. [pdf from Elsevier]
    A. StJ. Murphy, R. N. Boyd (for the OMNIS collaboration), 20th Int. Conf. Neutrino Phys. and Astrophys., Nucl. Phys. B (Proc. Suppl.) 118 (2003) 508
  149. Dark matter experiments at Boulby mine. [pdf from Elsevier]
    V. A. Kudryavtsev (for the Boulby Dark Matter Collaboration), 20th Int. Conf. Neutrino Phys. and Astrophys., Nucl. Phys. B (Proc. Suppl.) 118 (2003) 526
  150. Dark Matter Search at Boulby Mine.
    R. Lüscher (for the Boulby Dark Matter Collaboration), International Conference on High Energy Physics HEP 2003 (Aachen, July 2003)
  151. Dark Matter Experiments At Boulby Mine. [pdf]
    M. J. Carson (for the Boulby Dark Matter Collaboration), 28th ICRC (Tsukuba, Japan, 2003) 1693-1696
  152. Current Status of Dark Matter Searches at the Boulby Facility. [slides - 32MB pdf]
    N. J. T. Smith (for the Boulby Dark Matter Collaboration), TAUP 2003 (Seattle, Sep 2003)
  153. Dark matter experiments at Boulby mine.
    V. A. Kudryavtsev (for the Boulby Dark Matter Collaboration), 9th Adriatic Meeting (Dubrovkik, Sep 2003)
  154. DRIFT: a directionally sensitive dark matter detector. [pdf from Elsevier]
    B. Morgan (on behalf of the DRIFT and UK Dark Matter Collaborations), 6th Int. Conf. on Position-Sensitive Detectors, Nucl. Instrum. and Meth. in Phys. Res. A 513 (2003) 226-230
  155. Dark matter experiments at Boulby mine.
    V. A. Kudryavtsev (for the Boulby Dark Matter Collaboration), XXXIXth Moriond Workshop (La Thuile, Mar/Apr2004)
  156. The Boulby Dark Matter Programme.
    S. M. Paling (on behalf of the Boulby Dark Matter Collaboration), 6th Int. Symp. Sources and Detection of Dark Matter/Energy in the Universe (Marina del Rey, California, 18-20 Feb 2004)
  157. Simulation of neutron background for future large-scale particle dark matter detectors.
    M. Robinson (for the UK Dark Matter Collaboration), 6th Int. Symp. Sources and Detection of Dark Matter/Energy in the Universe (Marina del Rey, California, 18-20 Feb 2004)
[UKDMC home page] [Journals] [Reviews] [Conferences] [Preprints] [Theses] [Popular]
Full author listings: [Journals] [Reviews] [Conferences] [Preprints] [Theses] [Popular]

Preprints.

  1. Measurements of Scintillation Efficiency and Pulse-Shape for Low Energy Recoils in Liquid Xenon. [pdf] [ps]
    D. Akimov et al., hep-ex/0106042 (8 Jun 2001) [Phys. Lett. B 524 (2002) 245-251]
  2. Study and suppression of anomalous fast events in inorganic scintillators for dark matter searches. [pdf] [ps]
    V. A. Kudryavtsev et al., hep-ex/0109013 (12 Sep 2001) [Astroparticle Physics 17 (2002) 401-408]
  3. Dark Matter Search at Boulby Mine. (astro-ph/0305310) [pdf]
    R. Lüscher (for the Boulby Dark Matter Collaboration), XXXVIIIth Rencontres de Moriond (les Arcs, 2003)
[UKDMC home page] [Journals] [Reviews] [Conferences] [Preprints] [Theses] [Popular]
Full author listings: [Journals] [Reviews] [Conferences] [Preprints] [Theses] [Popular]

Ph. D. theses.

  1. Development of a liquid xenon detector for use in dark matter searches.
    G. J. Davies, Ph. D. Thesis (1994)
  2. Development of GaAs detectors for use both in particle dark matter experiments and in X-ray astronomy.
    S. M. Grant, Ph. D. Thesis (1994)
  3. Development of a cooled sodium iodide scintillator detector and its use in a search for dark matter.
    C. H. Lally, Ph. D. Thesis (1996)
  4. Searching for WIMPs and axion-like particles.
    D. Shaul, Ph. D. Thesis (1996)
  5. A Study of Pulse-Shape Discrimination in Scintillator Dark Matter Detectors.
    D. R. Tovey, Ph. D. Thesis (1998)
  6. Advanced Crystal Scintillators for Dark Matter Detection.
    C. D. Peak, Ph. D. Thesis (2000)
  7. Development of a WIMP Dark Matter Detector with Direction Sensitivity.
    T. B. Lawson, Ph. D. Thesis (2002)
  8. ZEPLIN III: A Two-Phase Xenon WIMP Detector.
    J. V. Dawson, Ph. D. Thesis (2003)
  9. The NAIAD Dark Matter Experiment: Backgrounds and Analysis.
    M. Robinson, Ph. D. Thesis (2003)
  10. Development of a Prototype Detector for Supernovae Neutrinos.
    C. Bungau, Ph. D. Thesis (2004)
[UKDMC home page] [Journals] [Reviews] [Conferences] [Preprints] [Theses] [Popular]
Full author listings: [Journals] [Reviews] [Conferences] [Preprints] [Theses] [Popular]

Popular articles.

  1. The race to detect dark matter (from New Scientist archive - registration required)
    N. Hall, P. F. Smith, New Scientist 134 1818 (1992) 37-41
  2. The search for dark matter particles.
    N. J. C. Spooner, Astronomy Now 7 no. 1 (1993) 40-42
  3. Dark matter search
    P. F. Smith, CERN Courier 36 no. 9 (September 1996) 17-20
  4. The search for dark matter
    Nigel Smith and Neil Spooner, Physics World 13 no. 1 (January 2000) 23-28
  5. The search for WIMPs [pdf; see also issue 15, p. 3 - pdf]
    N. J. C. Spooner, Frontiers, issue 13 (summer 2002) 21-23
  6. The search for Dark Matter (from Scientific American)
    David B. Cline, Scientific American, 288 no. 3 (March 2003) 28-35
[UKDMC home page] [Journals] [Reviews] [Conferences] [Preprints] [Theses] [Popular]
Full author listings: [Journals] [Reviews] [Conferences] [Preprints] [Theses] [Popular]