Our papers on the Neutron EDM are freely available to download:

• Improved Experimental Limit on the Electric Dipole Moment of the Neutron,
  C.A. Baker et al.,
  Physical Review Letters  97 (2006) 131801.
  
  
• Geometric-phase-induced false electric dipole moment signals for particles in traps,
  J.M. Pendlebury et al.,
  Physical Review A  70 (2004) 032102.
  
  
• Measurement of ultra cold neutron production in superfluid 4He,
  C.A. Baker, K. Green, M.G. D. van der Grinten, P.G. Harris et al.,
  Physics Letters A  308-1 (2003) 67-74.
  
  
• Development of solid state silicon devices as ultra cold neutron detectors,
  C.A. Baker, K. Green, M.G.D. van der Grinten, P.S. Iaydjiev, S.N. Ivanov, S. Al-Ayoubi, P.G. Harris, J.M. Pendlebury, D.B. Shiers and P. Geltenbort,
  Nucl. Instr. Meth A 487/3 (2002) 511-520.
  
  
• New Experimental Limit on the Electric Dipole Moment of the Neutron,
  P.G. Harris, C.A. Baker, K. Green et al.,
  New Phys. Rev. Lett. 82, 904 (1999).
  
  
• Characterization and Development of Diamond-Like Carbon Coatings for Storing Ultracold Neutrons,
  M.G.D. van der Grinten, J.M. Pendlebury, D. Shiers, C.A. Baker, K. Green, P.G. Harris, P.S. Iaydjiev, S.N. Ivanov and P. Geltenbort,
  Nucl. Instr. Meth. A 423, 421-427 (1999).
  
  
• Performance of an Atomic Mercury Magnetometer in the Neutron EDM Experiment,
  K. Green, P.G. Harris, P. Iaydjiev, D.J.R. May, J.M. Pendlebury, K.F. Smith, M. van der Grinten, P. Geltenbort and S. Ivanov,
  NIM-A 404/2-3, 381-393
  (1998).
  
  
• Development of low temperature solid state silicon ultra cold neutron detectors working within superfluid helium,
  C.A. Baker, S.N. Balashov, K. Green, M.G.D. van der Grinten, P.S. Iaydjiev, S.N. Ivanov, J.M. Pendlebury, D.B. Shiers, M.A.H. Tucker, H. Yoshiki, J. Butterworth and P. Geltenbort,
  accepted for publication in Nuclear Instruments & Methods-A (2003).