NewEvery arXiv paper, its researchers & institutions — mapped.
papers

Publications (15)

astro-ph2004

WMAP constraints on inflationary models with global defects

Neil Bevis, Mark Hindmarsh, Martin Kunz

hep-th2008

Cosmic string Y-junctions: a comparison between field theoretic and Nambu-Goto dynamics

Neil Bevis, Paul M. Saffin

astro-ph.CO2010

CMB power spectra from cosmic strings: predictions for the Planck satellite and beyond

Neil Bevis, Mark Hindmarsh, Martin Kunz +1

astro-ph2008

On the degeneracy between primordial tensor modes and cosmic strings in future CMB data from Planck

Jon Urrestilla, Pia Mukherjee, Andrew R. Liddle +3

astro-ph.CO2010

Detecting and distinguishing topological defects in future data from the CMBPol satellite

Pia Mukherjee, Jon Urrestilla, Martin Kunz +3

astro-ph2008

Cosmic microwave anisotropies from BPS semilocal strings

Jon Urrestilla, Neil Bevis, Mark Hindmarsh +2

astro-ph2008

Fitting CMB data with cosmic strings and inflation

Neil Bevis, Mark Hindmarsh, Martin Kunz +1

physics.comp-ph2016

Latfield2: A c++ library for classical lattice field theory

David Daverio, Mark Hindmarsh, Neil Bevis

hep-th2008

Abelian Higgs Cosmic Strings: Small Scale Structure and Loops

Mark Hindmarsh, Stephanie Stuckey, Neil Bevis

astro-ph2007

CMB polarization power spectra contributions from a network of cosmic strings

Neil Bevis, Mark Hindmarsh, Martin Kunz +1

astro-ph2007

CMB power spectrum contribution from cosmic strings using field-evolution simulations of the Abelian Higgs model

Neil Bevis, Mark Hindmarsh, Martin Kunz +1

astro-ph2005

The extragalactic sub-mm population: predictions for the SCUBA Half-Degree Extragalactic Survey (SHADES)

Eelco van Kampen, Will J. Percival, Miller Crawford +9

astro-ph.CO2010

Testing MOND/TEVES with LISA Pathfinder

Christian Trenkel, Steve Kemble, Neil Bevis +1

astro-ph.CO2010

MONDian three-body predictions for LISA Pathfinder

Neil Bevis, Joao Magueijo, Christian Trenkel +1

hep-th2009

On the stability of Cosmic String Y-junctions

Neil Bevis, Edmund J. Copeland, Pierre-Yves Martin +4