His primary areas of study are Astrophysics, Galaxy, Dark matter, Astronomy and Cold dark matter. Astrophysics is a component of his Halo, Dark matter halo, Galaxy cluster, Galaxy formation and evolution and Redshift studies. His studies in Halo integrate themes in fields like Radius and Virial theorem.
His Dark matter halo study combines topics from a wide range of disciplines, such as Warm dark matter and Galactic halo. The various areas that he examines in his Dark matter study include Gravitation, Classical mechanics and Halo mass function. Adrian Jenkins combines subjects such as Dwarf galaxy problem, Structure formation and Velocity dispersion with his study of Cold dark matter.
Adrian Jenkins mostly deals with Astrophysics, Galaxy, Ice shelf, Dark matter and Oceanography. In most of his Astrophysics studies, his work intersects topics such as Astronomy. Adrian Jenkins interconnects Antarctic sea ice, Ice stream and Ice sheet in the investigation of issues within Ice shelf.
His Dark matter research incorporates themes from Virial mass, Virial theorem, Halo mass function, Dwarf galaxy and Structure formation. The study incorporates disciplines such as Glacier and Meltwater in addition to Oceanography. His Halo research includes themes of Cosmology, Radius and Angular momentum.
His scientific interests lie mostly in Ice shelf, Oceanography, Astrophysics, Antarctic ice sheet and Sea ice. His Ice shelf research is multidisciplinary, relying on both Antarctic sea ice, Ice stream and Ice sheet. His Oceanography research integrates issues from Glacier and Glacial period.
As part of his studies on Astrophysics, Adrian Jenkins often connects relevant areas like Astronomy. His research in Dark matter intersects with topics in Halo and Dwarf galaxy. His research in the fields of Dark matter halo overlaps with other disciplines such as Substructure.
Astrophysics, Ice shelf, Galaxy, Astronomy and Oceanography are his primary areas of study. His work in Dark matter, Galaxy formation and evolution, Milky Way, Local Group and Cold dark matter are all subfields of Astrophysics research. His studies in Dark matter integrate themes in fields like Halo and Dwarf galaxy.
The various areas that Adrian Jenkins examines in his Galaxy formation and evolution study include Redshift and Galactic halo. The study incorporates disciplines such as Ice stream, Antarctic ice sheet and Ice sheet in addition to Ice shelf. His Stellar mass and Galaxy cluster investigations are all subjects of Galaxy research.
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Simulations of the formation, evolution and clustering of galaxies and quasars
Volker Springel;Simon D. M. White;Adrian Jenkins;Carlos S. Frenk.
The many lives of active galactic nuclei: cooling flows, black holes and the luminosities and colours of galaxies
Darren J. Croton;Volker Springel;Simon D. M. White;G. De Lucia.
Monthly Notices of the Royal Astronomical Society (2006)
Stable clustering, the halo model and nonlinear cosmological power spectra
R. E. Smith;J. A. Peacock;A. Jenkins;S. D. M. White.
arXiv: Astrophysics (2002)
The Aquarius Project: the subhalos of galactic halos
Volker Springel;Jie Wang;Mark Vogelsberger;Aaron Ludlow.
arXiv: Astrophysics (2008)
The 2dF Galaxy Redshift Survey: Power-spectrum analysis of the final dataset and cosmological implications
S. Cole;W. J. Percival;J. A. Peacock;P. Norberg.
arXiv: Astrophysics (2005)
The EAGLE project: Simulating the evolution and assembly of galaxies and their environments
Joop Schaye;Robert A. Crain;Richard G. Bower;Michelle Furlong.
Monthly Notices of the Royal Astronomical Society (2015)
The 2dF Galaxy Redshift Survey: power-spectrum analysis of the final data set and cosmological implications
Shaun Cole;Will Percival;John A. Peacock;Peder Norberg.
Monthly Notices of the Royal Astronomical Society (2005)
Mass function of dark matter halos
A. Jenkins;C. S. Frenk;S. D. M. White;J. M. Colberg.
arXiv: Astrophysics (2000)
Stable clustering, the halo model and non-linear cosmological power spectra
R E Smith;R E Smith;J A Peacock;A Jenkins;S D M White.
Monthly Notices of the Royal Astronomical Society (2003)
The mass function of dark matter haloes
A. R. Jenkins;C. S. Frenk;S. D. M. White;Jorg M. Colberg.
Monthly Notices of the Royal Astronomical Society (2001)
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