School of Mathematical Sciences
   
   
  
 

Image of Richard Howl

Richard Howl

Research Fellow, Faculty of Science

Contact

Recent Publications

  • RICHARD HOWL, ROGER PENROSE and IVETTE FUENTES, 2019. Exploring the unification of quantum theory and general relativity with a Bose–Einstein condensate New Journal of Physics. 21(4), 043047
  • R. HOWL and I. FUENTES, 2019. Interferometry with Gaussian Channels (In Press.)
  • D. HARTLEY, C. KADING, R. HOWL and I. FUENTES, 2019. Quantum simulation of dark energy candidates Physical Review D. 99(10), 105002
  • D. HARTLEY, C. KADING, R. HOWL and I. FUENTES, 2019. Quantum-enhanced screened dark energy detection (In Press.)
  • RICHARD HOWL, ROGER PENROSE and IVETTE FUENTES, 2019. Exploring the unification of quantum theory and general relativity with a Bose–Einstein condensate New Journal of Physics. 21(4), 043047
  • R. HOWL and I. FUENTES, 2019. Interferometry with Gaussian Channels (In Press.)
  • D. HARTLEY, C. KADING, R. HOWL and I. FUENTES, 2019. Quantum simulation of dark energy candidates Physical Review D. 99(10), 105002
  • D. HARTLEY, C. KADING, R. HOWL and I. FUENTES, 2019. Quantum-enhanced screened dark energy detection (In Press.)
  • R. HOWL, D. E. BRUSCHI, L. HACKERMULLER, I. FUENTES, 2018. Gravity in the quantum lab Advances in Physics X. 3(1),
  • D. RATZEL, R. HOWL, J. LINDKVIST and I. FUENTES, 2018. Dynamical response of Bose–Einstein condensates to oscillating gravitational fields New Journal of Physics. 20(7), 073044
  • D. RÄTZEL, F. SCHNEITER, D. BRAUN, T BRAVO, R. HOWL, M. LOCK, I. FUENTES, 2017. Frequency spectrum of an optical resonator in a curved spacetime New Journal of Physics. 20(5), 053046
  • D. HARTLEY, T. BRAVO, D. RÄTZEL, R. HOWL, I. FUENTES, 2017. Analogue simulation of gravitational waves in a 3+1 dimensional Bose-Einstein Condensate Phys. Rev. D.. (In Press.)
  • R. HOWL, C. SABIN, L. HACKERMULLER, I. FUENTES, 2017. Quantum decoherence of phonons of Bose-Einstein condensates J. Phys. B. 51, 1
  • P. ANTHRON, J. P. HALL, R. HOWL, S.F. KING, D. J. MILLER, S. MORETTI, R.NEVZOROV, Aspects of the Exceptional Supersymmetric Standard Model Nucl. Phys. Proc. Suppl.. 120-129
  • R. HOWL AND S.F. KING, Solving the Flavour Problem in Supersymmetric Standard Models with Three Higgs Families Phys. Lett. B. 355-362
  • R. HOWL AND S.F. KING, Exceptional Supersymmetric Standard Model with non-Abelian Discrete Family Symmetry JHEP.
  • R. HOWL AND S.F. KING, Minimal E(6) Supersymmetric Standard Model JHEP.
  • R. HOWL AND S.F. KING, Planck Scale Unication in a Supersymmetric Standard Model JHEP.

School of Mathematical Sciences

The University of Nottingham
University Park
Nottingham, NG7 2RD

For all enquiries please visit:
www.nottingham.ac.uk/enquire