skip to content

Department of Applied Mathematics and Theoretical Physics

Publications

A Recruitment Model of Tendon Viscoelasticity That Incorporates Fibril Creep and Explains Strain-Dependent Relaxation.
T Shearer, WJ Parnell, B Lynch, HRC Screen, I David Abrahams
– Journal of biomechanical engineering
(2020)
142,
071003
Analytical methods for perfect wedge diffraction: A review
MA Nethercote, RC Assier, ID Abrahams
– Wave Motion
(2020)
93,
102479
Multiple Waves Propagate in Random Particulate Materials
AL Gower, WJ Parnell, ID Abrahams
– SIAM Journal on Applied Mathematics
(2020)
79,
2569
Sound radiation from a semi-infinite lined duct
N Peake, ID Abrahams
– Wave Motion
(2020)
92,
102407
Thermo-viscous damping of acoustic waves in narrow channels: A comparison of effects in air and water
PA Cotterill, D Nigro, ID Abrahams, E Garcia-Neefjes, WJ Parnell
– J Acoust Soc Am
(2019)
144,
3421
A proof that multiple waves propagate in ensemble-averaged particulate materials
AL Gower, ID Abrahams, WJ Parnell
– Proceedings of the Royal Society A
(2019)
475,
20190344
Acoustic scattering from a one-dimensional array; Tail-end asymptotics for efficient evaluation of the quasi-periodic Green’s function
GM Lynott, V Andrew, ID Abrahams, MJ Simon, WJ Parnell, RC Assier
– Wave Motion
(2019)
89,
232
The inflation of viscoelastic balloons and hollow viscera
R De Pascalis, WJ Parnell, ID Abrahams, T Shearer, DM Daly, D Grundy
– Proceedings of the Royal Society A: Mathematical, Physical and Engineering Sciences
(2018)
474,
20180102
Characterising particulate random media from near-surface backscattering: A machine learning approach to predict particle size and concentration
AL Gower, RM Gower, J Deakin, WJ Parnell, ID Abrahams
– EPL (Europhysics Letters)
(2018)
122,
54001
Deepening subwavelength acoustic resonance via metamaterials with universal broadband elliptical microstructure
WD Rowley, WJ Parnell, ID Abrahams, SR Voisey, J Lamb, N Etaix
– Applied Physics Letters
(2018)
112,
251902
  • <
  • 2 of 13
  • >

Research Groups

Solid Mechanics
Waves Group

Room

G0.03

Telephone

01223 339842

Personal homepage