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[79] Nature, N&V 359, 583 (15 Oct 1992)
David Lindley
Messing around with gravity
[89] La Recherche February 1988
M. Milgrom
La Modification des lois de Newton
[92] Article in The Astronomy and Astrophysics
Encyclopedia, S. P. Maran, ed. (Van Nostrand Rheinhold, New York, 1992),
p.297.
Jacob D. Bekenstein
Gravitational Theories
[67] Scientific American, December 1998
George Musser
Pioneering Gas Leak?
SciAm
[114] 28 Jan 2000, Science, 287, 572
Mark Sincell
Heretical Idea Faces Its Sternest Test
Science |
Comments
[118] 2000, Mercury, 29(2), 8
McGaugh, S., & Schulman, E.
Modified Newtonian Dynamics
ASP
[136] Astronomy, August 2001, p.26
Steve Nadis
Out of Sight, Out of MOND
[147] 2001, Astronomy Now
McGaugh, S.S.
Gravity For All Scales?
HTML | PDF
[148] 2000, Future Frame
McGaugh, S.S.
A Few Steps Back On The Decision Tree
FF |
HTML
[162] 2002 (August) Scientific American,
287(2), 42
Milgrom, M.
Does Dark Matter Really Exist?
[169] 2003 Jan 25, New Scientist,
p.34-37
Marcus Chown
Breaking the Law
[172] 2003 Feb 13, The Guardian
Marcus Chown
Ditching dark matter
The Guardian On-line
[173] in American Scientist, Jan-Feb 2003 Sceince Observer
Dark Matter Heretic
Amreican Scientist
[183] Discover Vol. 24 No. 10 pp. 34-41
(October 2003)
Tim Folger
Nailing Down Gravity
October 2003
[281] 2005, New Scientist
(22 January 2005)
Marcus Chown
Are
there two types of gravity?
[282] 2006, Discover
(August 2006)
Adam Frank
The Einstein Dilemma |
PDF
[283] 2006, New Scientist
(29 April 2006)
David Shiga
Gravity:
Were Newton and Einstein wrong? |
PDF
[284] 2006, Astronomy Now (June 2006)
Amarendra Swarup
Reconstructing gravity
[285] 2006, Physics World
Matthew Chalmers
Gravity's dark side
[298] 2006, Physics Today, November 2006 Search & Discovery
Collision between galaxy clusters unveils striking evidence of dark matter
[299] 2006, Ciel & Espace, December 2006
Mond:
une nouvelle theorie pour l'Univers
[321] April, 2007
Govert Schilling
Battlefield Galactica
Sky
& Telescope
[377] 2007
Dark Matter is Dead
M. Chown
BBC
[21] 1983, ApJ, 270, 371
Milgrom, M.
A modification of the Newtonian dynamics - Implications for
galaxies
ADS
[20] 1983, ApJ, 270, 384
Milgrom, M.
A modification of the Newtonian dynamics - Implications for galaxy systems
ADS
[15] 1987, IAUS 117, 319
Milgrom, M.;
Bekenstein, J.
The modified Newtonian dynamics as an alternative to hidden matter
ADS
[10] 1989, ComAp, 13, 215
Milgrom, M.
Alternatives to Dark Matter
ADS
[88] Jerusalem Winter School, Jan. 1987.
Eds. J. Bahcall, T. Piran, and S. Weinberg (World Scientific Singapore)
M. Milgrom
Departure from Newton's laws at low accelerations as the explanation of the
dark matter problem
[50] Proceedings of the DARK98 meeting in Heidelberg July 1998
Mordehai Milgrom
The Modified Dynamics--A Status Review
arXiv
[31] 1990, A&ARv, 2, 1
Sanders, R. H.
Mass discrepancies in galaxies - Dark matter and alternatives
ADS
[81] Physics Today February 1992
Scott Tremaine
The Dynamical Evidence for Dark Matter
[59] The Evolution of the Universe, edited by G. Borner
and S. Gottlober, Dahlem Workshop Report ES~19 (John Wiley & Sons)
Georg G. Raffelt
The Nature of Dark Matter
arXiv
[89] La Recherche February 1988
M. Milgrom
La Modification des lois de Newton
[91] New ideas in astronomy, Arp's festschrift
(Eds. Bertola Sulentic and Madore)
Robert H. Sanders
Alternatives to missing mass
[97] 1998, ApJ, 499, 41
S. McGaugh & W. de Blok
Testing the Dark Matter Hypothesis with Low Surface Brightness Galaxies
and Other Evidence
ADS |
arXiv
[38] 1998, ApJ, 499, 66
S. McGaugh & W. de Blok
Testing the Hypothesis of Modified Dynamics with Low Surface
Brightness Galaxies and Other Evidence
ADS |
arXiv
[93] Galaxy Dynamics, eds. D. Merritt, J. Sellwood, & M. Valluri
(1998)
Stacy S. McGaugh
How galaxies don't form
ADS |
arXiv
[104] 1999, Galaxy Dynamics: from the Early Universe to the Present,
eds. F. Combes, G. A. Mamon, and V. Charmandaris
McGaugh, S.S.
Dynamical constraints on theories of disk galaxy formation
ADS |
arXiv
[124] 2000, in Gas & Galaxy Evolution
Sellwood, J.A., & Kosowsky, A.
Does Dark Matter Exist?
arXiv
[126] 2001, Fundamentals of Cosmic Physics, in press
Battaner, E., & Florido, E.
The rotation curve of spiral galaxies and its cosmological implications
arXiv
[127] 2001, ARA&A, 39
Sofue, Y., & Rubin, V.
Rotation Curves of Spiral Galaxies
arXiv
[137]
2001, IAS workshop
Galaxies and the Dark Matter Problem
Proceedings
[151] 2001, in The Dark Universe, ed. M. Livio
Sanders, R.H.
Modified Newtonian dynamics and its implications
arXiv
[154] 2002, Acta physica Polonica B32, 3612 (for Particles and Astrophysics--Standard Models and Beyond)
Milgrom, M.
MOND--a pedagogical review
arXiv
[157] 2002, ARA&A, 40, 263
Sanders, R.H., & McGaugh, S.S.
Modified Newtonian Dynamics as an Alternative to Dark Matter
.ps.gz |
arXiv |
ARA&A
[179] Modern Physics Letters A, Vol. 18, No. 27 (2003) 1861-1875
Sanders, R.H.
Missing Mass as Evidence for Modified Newtonian Dynamics at
Low Accelerations
MPLA
[186] 2003, IAU Symposium 220, "Dark Matter in Galaxies" ed. Stuart Ryder, D.J. Pisano, Mark walker & Ken Freeman
Binney, J.
Dark Matter in Galaxies: Conference Summary
arXiv
[187] 2003, IAU Symposium 220, "Dark Matter in Galaxies" ed. Stuart Ryder, D.J. Pisano, Mark Walker & Ken Freeman
Aguirre, A.
Alternatives to Dark Matter (?)
arXiv
[210] 2004
Binney, J.
The Case for Modified Gravity
PPT
[211] 2004, Identification of Dark Matter Conference
Merrifield, M.R.
Dark Matter on Galactic Scales (or the Lack Thereof)
arXiv
[215] 2005, JHEP Conference Proceedings
Bekenstein, J.D.
An alternative to the dark matter paradigm: relativistic MOND gravitation
arXiv
[232] 2005
Binney, J.
Modified Gravity
PPT
[239] 2005, in Mass Profiles and Shapes of Cosmological Structures
Milgrom, M.
MOND as Modified Inertia
arXiv
[242] 2005, in Mass Profiles and Shapes of Cosmological Structures
Sanders, R.H.
MOND and Cosmology
arXiv
[243] 2005, in Mass Profiles and Shapes of Cosmological Structures
Bekenstein, J.D., & Sanders, R.H.
A Primer to Relativistic MOND Theory
arXiv
[244] 2006, lecture given at Third Aegean Summer School, The Invisible Universe: Dark Matter and Dark Energy
Sanders, R.H.
Modified gravity without dark matter
arXiv
[246] 2006, in First crisis in cosmology
Scarpa, R.
Modified Newtonian Dynamics, an Introductory Review
arXiv
[266] 2006
McGaugh, S.S.
Observational Constraints on the Acceleration Discrepancy Problem
arXiv
[305] 2006, Contemporary Physics, 47, 387
Bekenstein, J.D.
The modified Newtonian dynamics - MOND and its implications for new physics
arXiv |
PS |
PDF
[319] 2007
Combes, F.
The Challenge of Dark Matter in the Universe
PDF
[320] 2007
Godfrey, G.
MOND vs. Dark Matter Update
PDF
[363] 2008, Matter and energy in the Universe: from nucleosynthesis to
cosmology
The MOND paradigm
Milgrom., M.
arXiv
[378] 2007, Science, 317, 607
McGaugh, S.S.
Seeing Through Dark Matter
Science
[19] 1984, ApJ, 286, 7
Bekenstein, J.; Milgrom, M.
Does the missing mass problem signal the breakdown of Newtonian
gravity?
ADS
[17] 1986, ApJ, 302, 617
Milgrom, M.
Solutions for the modified Newtonian dynamics field equation
ADS
[84] Second Canadian Conference on General Relativity and Relativistic
Astrophysics, A. Coley, C. Dyer and B. Tupper, eds. (World Scientific,
Singapore, 1988)
Jacob D. Bekenstein
The Missing Light Puzzle: a Hint About Gravity?
[85] 1988, Physics Letters B202, 497
Jacob D. Bekenstein
Phase Coupled Gravitation and Gauge Fields
[33] 1988, MNRAS, 235, 105
Sanders, R. H.
Phase coupling gravity and astronomical mass discrepancies
ADS
[86]Sixth Marcel Grossman Conference on General Relativity, Kyoto 1991
Jacob D. Bekenstein
New gravitational theories as alternatives to dark matter
[87] Developments in
General Relativity, Astrophysics and Quantum Theory: A Jubilee in Honour of
Nathan Rosen, eds. F. I. Cooperstock, L. P. Horwitz and J. Rosen, (IOP
Publishing, Bristol 1990), p.155.
Jacob D. Bekenstein
Non Newtonian gravitation and causality
[5] 1994, ApJ, 429, 540
Milgrom, M.
Modified dynamics predictions agree with observations of the HI
kinematics in faint dwarf galaxies contrary to the conclusions of
Lo, Sargent, and Young
ADS |
arXiv
[25] 1997, ApJ, 480, 492
Sanders, R. H.
A Stratified Framework for Scalar-Tensor Theories of
Modified Dynamics
ADS |
arXiv
[76] Ph.D. Thesis. Thechnical University of Munich, The Max Planck Institute
for Physics
Rainer Romatka
Alternatives to ``dark matter'' (in German)
[78] General Relativity and Gravitation 27, 4 (1995)
Harald H. Soleng
Dark Matter and Non-Newtonian Gravity from General Relativity Coupled
to a Fluid of strings
[53] 1994, Ann. Phys. 229, 384-415
Mordehai Milgrom
Dynamics with a non-standard inertia-acceleration relation: an alternative
to dark matter
arXiv
[65] 1997, Phys. Rev. E 56, 1148
Mordehai Milgrom
Non-linear conformally invariant generalization of the Poisson equation to
D>2 dimensions
arXiv
[51] 1999, Physics Letters A, 253, 273
Mordehai Milgrom
The Modified Dynamics as a Vacuum Effect
arXiv |
Physics Letters A
[50] Proceedings of the DARK98 meeting in Heidelberg July 1998
Mordehai Milgrom
The Modified Dynamics--A Status Review
arXiv
[4] 1995, MNRAS, 276, 453
Brada, R.;
Milgrom, M.
Exact solutions and approximations of MOND fields of disc galaxies
ADS |
arXiv
[98] 1996, Ph.D. thesis, Weizmann Institute of Science
Rafi Brada
Problems in galactic dynamics using the modified dynamics (MOND)
uuencoded, compressed postscript
[96] 1999, preprint
Periwal, V.
Cosmological and astrophysical tests of quantum gravity
arXiv
[108] 1999, preprint
Consoli, M.,& Siringo, F.
Newtonian gravity from Higgs condensates
arXiv
[112] 1999, A&A, in press
Selman, F.J.
Mass Segregation in the Universe: Dark Matter or MOND?
[115] 2000, preprint
M. Consoli
Gravitational forces from Bose-Einstein condensation
arXiv
[117] 2000, ApJ, 540, 57
Muller, D., & Opher, R.
Orbits in a Neighboring Dwarf Galaxy According to MOND
ApJ |
ADS |
arXiv
[119] 2000, ApJ, 541, 556
Brada, R., & Milgrom, M.
Dwarf satellite galaxies in the modified dynamics
ApJ |
ADS |
arXiv
[122] 2000, 15th Florida Workshop in Nonlinear Astronomy and Physics
Kinney, W.H., & Brisudova, M.
An attempt to do without dark matter
arXiv
[155] 2001, J.Phys. A35 (2002) 1437-1454
Milgrom, M.
Forces in Nonlinear Media
arXiv |
J.Phys.A
[160] 2002, New Astronomy Reviews, in press
Milgrom, M.
MOND--theoretical aspects
arXiv
[168] 2003, UFIFT-HEP-03-02
Soussa, M.E., & Woodard, R.P.
A Nonlocal Metric Formulation of MOND
arXiv
[176] 2003
Soussa, M.E. & Woodard, R.P.
A generic problem with purely metric formulations of MOND
arXiv
[182] 2003, proceedings of the IVth Marseille International Cosmology Conference
Soussa, M.
Causal Field Equations and Real Eigenvalues from a Non-Local Lagrangian
arXiv
[188] 2003, XVth Rencontres de Blois Proceedings
Soussa, M.
A Closer Look at the Mond No-Go Statement for Purely Metric Formulations
arXiv
[191] 2003
Cadoni, M.
An Einstein-like theory of gravity with a non-newtonian weak-field limit
arXiv
[196] 2004
Jordan, T.F.
Modified Newtonian dynamics from acceleration fluctuations
arXiv
[197] 2004, MNRAS, in press
Ciotti, L. & Binney, J.
Two-body relaxation in modified Newtonian dynamics
arXiv
[201] 2004, Phys. Rev. D70, 083509
Bekenstein, J.D.
Relativistic gravitation theory for the MOND paradigm
arXiv
[202] 2004
Moffat, J.W.
Modified Gravitational Theory as an Alternative to Dark Energy and Dark
Matter
arXiv
[203] 2004
Deur, A.
Non-Abelian Effects in Gravitation
arXiv
[206] 2004
Kiselev, V.V.
Ghost condensate model of flat rotation curves
arXiv
[207] 2004
Kiselev, V.V.
Vector field and rotational curves in dark galactic halos
arXiv
[209] 2004
Binney, J.
MOND: Current status & predictions for two-body relaxation
PPT
[212] 2004, Quantum
Gravity Phenomenology (40th Winter School of Theoretical Physics)
Smolin, L.
Quantum Gravity with a non-zero cosmological constant
PDF
[213] 2004
Moffat, J.W.
Gravitational Theory, Galaxy Rotation Curves and Cosmology without Dark
Matter
arXiv
[215] 2005, JHEP Conference Proceedings
Bekenstein, J.D.
An alternative to the dark matter paradigm: relativistic MOND gravitation
arXiv
[218] 2005, MNRAS, submitted
Sanders, R.H.
A tensor-vector-scalar framework for modified dynamics and cosmic dark matter
arXiv
[228] 2005
Kao, W.F.
Modified Newtonian Dynamics In Dimensionless Form
arXiv
[229] Phys.Rev. D71 (2005) 103511
Giannios, D.
Spherically symmetric, static spacetimes in a tensor-vector-scalar theory
arXiv
[237] 2005, A&A, 444, L25
Zhao, H.-S.
Roche lobe sizes in deep-MOND gravity
arXiv
[238] 2005
Kao, W. F.
Modified Newtonian Dynamics and Induced gravity
arXiv
[238] 2005
Kao, W. F.
Mass distribution of modified Newtonian dynamics within highly flattened galaxies
arXiv
[240] 2006
Milgrom, M.
Massive particles in acoustic space-times emergent inertia and passive gravity
arXiv
[241] 2006
Romero, J.M., & Zamora, A.
Alternative proposal to modified Newton dynamics (MOND)
arXiv
[249] 2006, ApJ, 640, 741
Ciotti, L., Londrillo, P., & Nipoti, C.
Axisymmetric and Triaxial MOND Density-Potential Pairs
arXiv |
ADS
[250] 2006
Jin, X.-h. & Li, X.-z.
Oppenheimer-Volkoff Equation in Relativistic MOND Theory
arXiv
[254] 2005
Navarro, I., & Van Acoleyen, K.
Modified gravity, Dark Energy and MOND
arXiv
[255] 2006, MNRAS, 371, 138
Angus, G.W., Famaey, B., & Zhao, H.S.
Can MOND take a bullet? Analytical comparisons of three versions of MOND beyond spherical symmetry
arXiv
[260] 2006
Bruneton, J.-P.
On causality and superluminal behavior in classical field theories.
Applications to k-essence theories and MOND-like theories of gravity
arXiv
[261] 2006
T.G Zlosnik, P.G Ferreira, G.D Starkman
Modifying gravity with the Aether: an alternative to Dark Matter
arXiv
[262] 2006
T.G Zlosnik, P.G Ferreira, G.D Starkman
The Vector-Tensor nature of Bekenstein's relativistic theory of
Modified Gravity
arXiv
[264] 2006, ApJ, 638, L9
Zhao, H.-S., & Famaey, B.
Refining MOND interpolating function and TeVeS Lagrangian
arXiv
[265] 2006
I. Navarro & K. Van Acoleyen
Dark energy, MOND and sub-millimeter tests of gravity
arXiv
[267] 2006
A. A. Deriglazov
Interpretation of Lorentz boosts in conformally deformed special relativity
theory
arXiv
[268] 2006
M. B. Gerrard, T. J. Sumner
The effect of a fifth large-scale space-time dimension on orbital dynamics
arXiv
[269] 2006
Charles Francis
Does a Teleconnection between
Quantum States account for Missing Mass, Galaxy Ageing, Lensing
Anomalies, Supernova Redshift, MOND, and Pioneer Blueshift?
arXiv
[270] 2006
E. Minguzzi
Possible relation
between galactic flat rotational curves and the Pioneers' anomalous
acceleration
arXiv
[271] 2006
Y. Sobouti
An f(R) gravitation instead of dark matter
arXiv
[276] 2005
Constantinos Skordis
TeVeS Cosmology: Covariant formalism for the background evolution and linear
perturbation theory
arXiv
[288] 2006, submitted to Classical and Quantum Gravity
Blanchet, L.
Dipolar Particles in General Relativity
arXiv
[300] 2007, Phys. Rev. Lett., 98, 101101
A.Yu. Ignatiev
Is violation of the second Newton's law possible?
arXiv
[301] 2007, A&A, in press
O. Tiret, F. Combes
Evolution of spiral galaxies in modified gravity
arXiv
[303] 2007, ApJ, in press
C. Nipoti, P. Londrillo, L. Ciotti
Dissipationless collapses in MOND
arXiv
[311] 2007, in Collective Phenomena in Macroscopic Systems
L. Ciotti, C. Nipoti, P. Londrillo
Phase mixing in MOND
arXiv
[312] 2007
M.B. Gerrard, T.J. Sumner
The effect of a fifth large-scale space-time dimension on the conservation of energy in a four dimensional Universe
arXiv
[316] 2007
Carlo Nipoti, Pasquale Londrillo, Luca Ciotti
Galaxy merging in MOND
arXiv
[317] 2007, Physical Review D, 76, 124012
Jean-Philippe Bruneton, Gilles Esposito-Farese
Field-theoretical formulations of MOND-like gravity
arXiv
[324] 2007
Mavromatos, N., & Sakellariadou, M.
Relativistic Modified Newtonian Dynamics from String Theory?
arXiv
[332] 2007
Bruneton, J.-P.
On causality and superluminal behavior in classical field theories. Applications to k-essence theories and MOND-like theories of gravity
arXiv
[335] 2007
Navarro, I.
Dark Energy, scalar-curvature couplings and a critical acceleration scale
arXiv
[339] 2007
Black holes in the TeVeS theory of gravity and their thermodynamics
Eva Sagi, Jacob D. Bekenstein
arXiv
[349] 2007
Summary of session A4 at the GRG18 conference: Alternative Theories of Gravity
Gilles Esposito-Farese
arXiv
[361] 2008, GWDAW-12 2007
A Decisive test to confirm or rule out existence of dark matter using
gravitational wave observations
E. O. Kahya
arXiv
[362] 2008
Generalizing TeVeS Cosmology
Skordis, S.
arXiv
[364] 2008, ApJ, in press
Self-consistent models of triaxial galaxies in MOND gravity
You-gang Wang, Xufen Wu, HongSheng Zhao
arXiv
[368] 2008
TeVeS gets caught on caustics
Carlo R. Contaldi, Toby Wiseman, Benjamin Withers
arXiv
[369] 2008, MNRAS, submitted
Dynamical friction in Modified Newtonian Dynamics
C. Nipoti, L. Ciotti, J. Binney, P. Londrillo
arXiv
[383] 2008
N-MODY: a code for collisionless N-body simulations in modified Newtonian dynamics
Pasquale Londrillo, Carlo Nipoti
arXiv
[385] 2008
Dark Fluid: Towards a unification of empirical theories of galaxy rotation,
Inflation and Dark Energy
HongSheng Zhao, Baojiu Li
arXiv
[388] 2008
Gravity Gets There First with Dark Matter Emulators
Desai, S., Kahya, E.O., Woodard, R.P.
arXiv
[389] 2008
Model of Dark Matter and Dark Energy Based on Gravitational Polarization
Luc Blanchet, Alexandre Le Tiec
arXiv
[390] 2008 Phys. Rev. D, 77, 084010
On the growth of structure in theories with a dynamical preferred frame
T.G Zlosnik, P.G. Ferreira, G.D. Starkman
arXiv
[394] 2008
Reinterpreting MOND: coupling of Einsteinian gravity and spin of cosmic
neutrinos?
Zhao, H.-S.
arXiv
[66] 1989, Phys. rev. Lett. 81, 2858
John D. Anderson, Philip A. Laing, Eunice L. Lau, Anthony S. Liu, Michael Martin Nieto, Slava G. Turyshev
Indication, from Pioneer 10/11, Galileo, and Ulysses Data, of an Apparent
Anomalous, Weak, Long-Range Acceleration
arXiv
[67] Scientific American, December 1998
George Musser
Pioneering Gas Leak?
SciAm
[251] 2006
Sanders, R.H.
Solar system constraints on multi-field theories of modified dynamics
arXiv
[252] 2006 Phys.Rev.D, 73, 103513
Bekenstein, J., & Magueijo, J.
MOND habitats within the solar system
arXiv |
Phys Rev
[253] 2006
Sereno, M., & Jetzer, Ph.
Dark matter vs. modifications of the gravitational inverse-square law.
Results from planetary motion in the solar system
arXiv
[258] 2006
Sahni, V., & Shtanov, Y.
APSIS - an Artificial Planetary System in Space to probe
extra-dimensional gravity and MOND
arXiv
[309] 2006, 36th COSPAR Scientific Assembly
Jorge Paramos, Orfeu Bertolami
Current tests of alternative gravity theories: the Modified Newtonian
Dynamics case
arXiv
[310] 2007, MNRAS, 376, 338
M.E. McCulloch
Modelling the Pioneer anomaly as modified inertia
arXiv
[315] 2007
John F. Wallin, David S. Dixon, Gary L. Page
Testing Gravity in the Outer Solar System: Results from Trans-Neptunian Objects
arXiv
[352] 2007
Constraining MOND with Solar System dynamics
Lorenzo Iorio
arXiv
[354] 2007
Solar system tests of the cosmological constant
Jetzer, Philippe; Sereno, Mauro
arXiv
[365] 2008, for International School of Physics Enrico Fermi on Atom Optics and Space Physics
Tests of general relativity in the solar system
Serge Reynaud, Marc-Thierry Jaekel
arXiv
[371] International Journal of Modern Physics D, Volume 16, Issue 12a, pp. 2035-2053 (2007)
Testing Strong MOND Behavior in the Solar System
Magueijo, Joao, Bekenstein, Jacob
ADS
[379] 2007, JBIS, submitted
Can the flyby anomalies be explained by a modification of inertia?
M.E. McCulloch
arXiv
[40] 1992, ApJ, 397, 38
Gerhard, O.E.;
Spergel, D.N.
Dwarf spheroidal galaxies and non-Newtonian gravity
ADS
[99] 1994, in Proc. of the ESO/OHP Workshop,
Dwarf Galaxies, eds. G. Meylan \& P. Prugniel (Garching: ESO), 335
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[41] 1998mcdg.proc, 53
Mateo, M.
Strange Dark Matters in Nearby Dwarf Galaxies
ADS |
Bonn
[42] 1998, AJ, 116, 2315
Mateo, M.;
Olszewski, E.W.;
Vogt, S.S.;
Keane, M.J.
The Internal Kinematics of the Leo I Dwarf Spheroidal Galaxy: Dark
Matter at the Fringe of the Milky Way
ADS |
arXiv
[43] 1998, ARA&A, 36, 435
Mateo, M. L.
Dwarf Galaxies of the Local Group
ADS |
arXiv
[52]Proc. of the 2nd workshop on The dark side of the Universe,
Eds. R. Bernabei and A. Incicchitti Rome 1995 (world Scientific, Singapore 96)
Mordehai Milgrom
Low-surface-density galaxies and the modified dynamics
arXiv
[3] 1995, ApJ, 455, 439
Milgrom, M.
MOND and the Seven Dwarfs
ADS |
arXiv
[38] 1998, ApJ, 499, 66
Stacy S. McGaugh & W.J.G. (Erwin) de Blok
Testing the Hypothesis of Modified Dynamics with Low Surface Brightness
Galaxies and Other Evidence
ADS |
arXiv
[95] 1999, PASP, 111, 306
Cook, K.H., Mateo, M., Olszewski, E.W., Vogt, S.S., Stubbs, C., Diercks, A.
The Systemic Velocity and Internal Kinematics of the Dwarf Galaxy LGS 3:
An Optical Foray beyond the Milky Way
ADS
[117] 2000, ApJ, 540, 57
Muller, D., & Opher, R.
Orbits in a Neighboring Dwarf Galaxy According to MOND
ApJ |
ADS |
arXiv
[119] 2000, ApJ, 541, 556
Brada, R., & Milgrom, M.
Dwarf satellite galaxies in the modified dynamics
ApJ |
ADS |
arXiv
[143] 2001, MNRAS, 327, L21
Lokas, E.L.
Velocity dispersions of dwarf spheroidal galaxies: dark matter versus
MOND
arXiv
[150] 2002, MNRAS, 333, 697
Lokas, E.W.,
Dark matter distribution in dwarf spheroidal galaxies
arXiv
[156] 2001, ApJL, submitted
Kleyna, J.T., Wilkinson, M.I., Evans, N.W., Gilmore, G.
First Clear Signature of an Extended Dark Matter Halo in the Draco
Dwarf Spheroidal
arXiv
[224] 2005, MNRAS, submitted
Scarpa, R.
Testing MOND with Ultra-Compact Dwarf Galaxies
arXiv
[235] 2005, IAU 198
Zhao, H.
Modified Newtonian Dynamics: success and problem on globular cluster scale
arXiv
[387] 2008, MNRAS, in press
Dwarf Spheroidals in MOND
Garry W. Angus
arXiv
[18] 1984, ApJ, 287, 571
Milgrom, M.
Isothermal spheres in the modified dynamics
ADS
[63] 1987, ApJ, 312, 17
Hernquist, L. & Quinn, P.J.
Shell galaxies and alternatives to the dark matter hypothesis
ADS
[13] 1988, ApJ, 332, 86
Milgrom, M.
What shells around NGC 3923 tell us about the modified dynamics
ADS
[72] 1987, IAUS 127, 469
Dupraz, C., Combes, F., & Prieur, J.L.
Shells Around Tumbling Bars - the Mass Distribution Around NGC 3923
ADS
[75] 1987, MNRAS, 227, 677
Yoshii, Y., & Saio, H.
On the velocity fields in elliptical galaxies with dark matter
ADS
[77] 1994, ApJ, 427, 86
Buote, D.A., & Canizares, C.R.
Geometrical evidence for dark matter: X-ray constraints on the mass of the
elliptical galaxy NGC 720
ADS
[102] 2000, MNRAS, 313, 767
Sanders, R.H.
The fundamental plane of elliptical galaxies with modified
Newtonian dynamics
ADS |
arXiv
[129] 2001, AJ, in press
Gerhard, O., Kronawitter, A., Saglia, R.P., & Bender, R.
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G. Gentile, B. Famaey, F. Combes, P. Kroupa, H. S. Zhao, O. Tiret
Tidal dwarf galaxies as a test of fundamental physics
arXiv
Bar formation and galaxy interactions in MOND
O. Tiret, F. Combes
arXiv
The thickness of HI in galactic discs under MOND: theory and application
to the Galaxy
F.J. Sanchez-Salcedo, K. Saha, C. A. Narayan
arXiv
Evolution of spiral galaxies in modified gravity: II- Gas dynamics
O. Tiret, F. Combes
arXiv
Warps
[113] 2000, ApJ, 531, L21
Brada, R., & Milgrom, M.
The modified dynamics is conducive to galactic warp formation
arXiv
Rafi Brada
Problems in galactic dynamics using the modified dynamics (MOND)
uuencoded, compressed postscript
Christodoulou, D.M., Tohline, J.E., & Steiman-Cameron, T.Y.
Tilted-ring models of the prolate spiral galaxies NGC 5033 and 5055
ADS
Christodoulou, D.M., & Tohline, J.E.
What warped disks can tell us about galaxy halos and gravity
ADS
Haghi, H., Rahvar, S., & Hasani-Zonooz, A.
Magellanic Stream in MOND
arXiv
Weinberg, M.D., & Blitz, L.
A Magellanic Origin for the Warp of the Galaxy
arXiv
Galaxy Systems
Binaries and Groups
[1] 1998, ApJ, 496, L89
Milgrom, M.
Galaxy Groups and Modified Dynamics
ADS |
arXiv
Milgrom, M.
A modification of the Newtonian dynamics - Implications for galaxy systems
ADS
Soares, D.S.L.
Binary galaxies and alternative physics. I. A qualitative application of
MOND and Mannheim-Kazanas gravity.
ADS |
arXiv
Brada, R., & Milgrom, M.
Dwarf satellite galaxies in the modified dynamics
ApJ |
ADS |
arXiv
Milgrom, M.
MOND mass-to-light ratios for galaxy groups
arXiv
A. Klypin, F. Prada
Testing gravity with motion of satellites around galaxies: Newtonian gravity against Modified Newtonian Dynamics
arXiv |
Comments
Angus, G.W., Famaey, B., & Buote, D.A.
X-ray Group and cluster mass profiles in MOND: Unexplained mass on the group scale
arXiv
Angus, G., Famaey, B., Tiret, O., Combes, F., & Zhao, H.-S.
The velocity distribution of SDSS satellites in MOND
arXiv
Bar formation and galaxy interactions in MOND
O. Tiret, F. Combes
arXiv
Interacting Galaxies with MOND
O. Tiret, F. Combes
arXiv
Milky Way potentials in CDM and MOND. Is the Large Magellanic Cloud on a bound orbit?
Xufen Wu, Benoit Famaey, Gianfranco Gentile, Hagai Perets, HongSheng Zhao
arXiv
Clusters
[20] 1983, ApJ, 270, 384
Milgrom, M.
A modification of the Newtonian dynamics - Implications for galaxy systems
ADS
Sanders, R. H.
A Faber-Jackson relation for clusters of galaxies: Implications for modified
dynamics
ADS
R.H. Sanders
Resolving the virial discrepancy in clusters of galaxies with modified
Newtonian dynamics
ADS |
arXiv
The, L.H., & White, S.D.M.
Modified Newtonian dynamics and the Coma cluster
ADS
Gerbal, D.; Durret, F.;
Lachieze-Rey, M.;
Lima-Neto, G.
Analysis of X-ray galaxy clusters in the framework of modified Newtonian
dynamics
ADS
Milgrom, M.
Criticism of Gerbal Analysis of X-ray Clusters in the Light
of Modified Dynamics
ADS
Gerbal, D.; Durret, F.;
Lachieze-Rey, M.;
Lima-Neto, G.
Answer to Milgrom's criticisms
ADS
Aguirre, A., Schaye, J., Quataert, E.
Problems for MOND in Clusters and the Ly-alpha Forest
arXiv |
ADS
Sanders, R.H.
Clusters of galaxies with modified Newtonian dynamics
arXiv
Clowe, D., Gonzalez, A., & Markevitch, M.
Weak lensing mass reconstruction of the interacting cluster 1E0657-558:
Direct evidence for the existence of dark matter
arXiv |
Comments
Nusser, A., & Pointecouteau, E.
Modeling the formation of galaxy clusters in MOND
arXiv
Pointecouteau, E., & Silk, J.
New constraints on MOND from galaxy clusters
arXiv
Angus, G.W., Famaey, B., & Zhao, H.S.
Can MOND take a bullet? Analytical comparisons of three versions of MOND beyond spherical symmetry
arXiv
Pointecouteau, E.
The mass missing problem in clusters: dark matter or modified dynamics?
arXiv
Clowe, D., Bradac, M., Gonzalez, A.H., Markevitch, M.,
Randall, S.W., Jones, C., & Zaritsky, D.
A direct empirical proof of the existence of dark matter
arXiv |
ApJ
Angus, G.W., Shan, H.-Y., Zhao, H.-S., & Famaey, B.
On the Law of Gravity, the Mass of Neutrinos and the Proof of Dark Matter
arXiv
Farrar, G.R., & Rosen, R.A.
A New Force in the Dark Sector?
arXiv
R. Takahashi, T. Chiba
Weak Lensing of Galaxy Clusters in MOND
arXiv
Sanders, R.H.
Neutrinos as cluster dark matter
arXiv
Zhao, H.-Z.
Timing and Lensing of the Colliding Bullet Clusters: barely
enough time and gravity to accelerate the bullet
arXiv
Angus, G.W., & McGaugh, S.S.
The collision velocity of the bullet cluster in conventional and modified dynamics
arXiv
The wedding ring of MOND and non-exotic dark matter
B. Famaey, G.W. Angus, G. Gentile, H.S. Zhao
arXiv
Xufen Wu, HongSheng Zhao, Benoit Famaey, G. Gentile, O. Tiret, F. Combes, G.W. Angus, A.C. Robin
Loss of mass and stability of galaxies in MOND
arXiv
Angus, G.W., Famaey, B., & Buote, D.A.
X-ray Group and cluster mass profiles in MOND: Unexplained mass on the group scale
arXiv
The dark matter halo of NGC 1399 - CDM or MOND?
Richtler, T.; Schuberth, Y.; Hilker, M.; Dirsch, B.; Bassino, L.; Romanowsky, A. J
arXiv
Neutrinos as galactic dark matter in the Ursa Major galaxy group?
Gentile, G.; Zhao, H. S.; Famaey, B.
arXiv
Marriage a-la-MOND: Baryonic dark matter in galaxy clusters and the
cooling flow puzzle
Milgrom, M.
arXiv
Neutrinos as galactic dark matter in the Ursa Major galaxy group?
G. Gentile, H. S. Zhao, B. Famaey
arXiv
Asymmetric Gravitational Lenses in TeVeS and Application to the Bullet Cluster
M. Feix, C. Fedeli, M. Bartelmann
arXiv
Large Scale Structure
[2] 1997, ApJ, 478, 7
Milgrom, M.
Large-Scale Filaments: Newtonian versus Modified Dynamics
ADS |
arXiv
Sanders, R. H.
Cosmology with modified Newtonian dynamics (MOND)
ADS |
arXiv
Stacy S. McGaugh
MOND in the Early Universe
ADS |
arXiv
Sanders, R.H.
The formation of cosmic structure with modified Newtonian dynamics
arXiv |
ApJ
Nusser, A.
Modified Newtonian Dynamics of Large Scale Structure
arXiv
Stachniewicz, S., & Kutschera, M.
The first compact objects in the MOND model
arXiv
Knebe, A., & Gibson, B.K.
Galactic Halos in MONDian Cosmological Simulations
arXiv
Stachniewicz, S., & Kutschera, M.
The end of the Dark Ages in MOND
arXiv
Nusser, A., & Pointecouteau, E.
Modeling the formation of galaxy clusters in MOND
arXiv
Skordis, C., Mota, D. F., Ferreira, P. G., & Boehm, C.
Large scale structure in Bekenstein's theory of relativistic MOND
arXiv
Alexander Knebe
MONDian Cosmological Simulations
arXiv
Dodelson, S., & Liguori, M.
Can Cosmic Structure form without Dark Matter?
arXiv
Tang, J.-Y., Weller, J., & Zablocki, A.
Probing Modified Gravity by Combining Supernovae and Galaxy Cluster Surveys
arXiv
Fabian Schmidt, Michele Liguori, Scott Dodelson
Galaxy-CMB Cross-Correlation as a Probe of Alternative Models of Gravity
arXiv
Structure Formation in Alternative Gravity with a Vector Field:
I. Equations for F(K) gravity with a K4 term
Halle, Anaelle; Zhao, HongSheng
arXiv
Forming Galaxies with MOND
Sanders, R.H.
arXiv
On the growth of structure in theories with a dynamical preferred frame
T.G Zlosnik, P.G. Ferreira, G.D. Starkman
arXiv
Cosmology
[70] 1984, ApJ, 286, 3
Felten, J. E.
Milgrom's revision of Newton's laws - Dynamical and cosmological
consequences
ADS
Milgrom, M.
Alternatives to Dark Matter
ADS
Sanders, R. H.
Cosmology with modified Newtonian dynamics (MOND)
ADS |
arXiv
Mordehai Milgrom
Dynamics with a non-standard inertia-acceleration relation: an alternative
to dark matter
arXiv
Mordehai Milgrom
The Modified Dynamics--A Status Review
arXiv
McGaugh, S.S.
Distinguishing Between CDM and MOND:
Predictions for the Microwave Background
ADS |
arXiv |
HTML
McGaugh, S.S.
BOOMERanG Data Suggest a Purely Baryonic Universe
arXiv |
ApJ |
PDF |
Confirms prediction of [103]
Sanders, R.H.
The formation of cosmic structure with modified Newtonian dynamics
arXiv |
ApJ
Peebles, P.J.E.
Summary: Comments on the State of our Subject
arXiv
Sivaram, C.
Mond, dark matter and the cosmological constant
ADS
Sivaram, C.
Some aspects of MOND and its consequences for cosmology
ADS
Sanders, R. H.
Cosmological implications of phase coupling gravity
ADS
Morishima, T., & Saio, H.
Viscous Evolution of Self-gravitating Galactic Disks
Under Modified Newtonian Dynamics
ADS
Felten, J. E.
Milgrom's revision of cosmic dynamics: Amending Newton's laws or Keplers?
ADS
McGaugh, S.S.
Galaxy Dynamics and the Second Peak: Cold Dark Matter?
arXiv
Scott, D., White, M., Cohn, J.D., & Pierpaoli, E.
Cosmological Difficulties with Modified Newtonian Dynamics (or:
La Fin du MOND?)
arXiv
| Comments
Nusser, A.
Modified Newtonian Dynamics of Large Scale Structure
arXiv
Lue, A., & Starkman, G.D.
Squeezing MOND into a Cosmological Scenario
arXiv
McGaugh, S.S.
Confrontation of MOND Predictions with WMAP First Year Data
arXiv
Bekenstein, J.D.
Relativistic gravitation theory for the MOND paradigm
arXiv
Hao, J.G., & Akhoury, R.
Can Relativistic MOND Theory Resolve Both the Dark Matter and Dark Energy
Paradigms?
arXiv
Skordis, C., Mota, D. F., Ferreira, P. G., & Boehm, C.
Large scale structure in Bekenstein's theory of relativistic MOND
arXiv
Maziashvili, M.
Dust-shell Universe in the modified gravity scenario
arXiv
Slosar, A., Alessandro Melchiorri, A., & Silk, J.
Did Boomerang hit MOND?
arXiv
Luz Maria Diaz-Rivera, Lado Samushia, Bharat Ratra
Inflation and accelerated expansion TeVeS cosmological solutions
arXiv
Constantinos Skordis
TeVeS Cosmology: Covariant formalism for the background evolution and linear
perturbation theory
arXiv
Dodelson, S., & Liguori, M.
Can Cosmic Structure form without Dark Matter?
arXiv
Tang, J.-Y., Weller, J., & Zablocki, A.
Probing Modified Gravity by Combining Supernovae and Galaxy Cluster Surveys
arXiv
Fabian Schmidt, Michele Liguori, Scott Dodelson
Galaxy-CMB Cross-Correlation as a Probe of Alternative Models of Gravity
arXiv
The Cosmology of Ricci-Tensor-Squared Gravity in the Palatini Variational
Approach
Baojiu Li, John D. Barrow, David F. Mota
arXiv
Coincidences of Dark Energy with Dark Matter - Clues for a Simple Alternative?
HongSheng Zhao
arXiv
Around MOND: Lagrangians, Hubble Equations, Perturbations and External Field Effect
Halle, Anaelle
arXiv
Structure Formation in Alternative Gravity with a Vector Field:
I. Equations for F(K) gravity with a K4 term
Halle, Anaelle; Zhao, HongSheng
arXiv
Generalizing TeVeS Cosmology
Skordis, S.
arXiv
Do Newton's G and Milgrom's a_0 vary with cosmological epoch?
Jacob D. Bekenstein, Eva Sagi
arXiv
Dark matter from Modified Friedmann Dynamics
M.Szydlowski, W. Godlowski, J.Golbiak
arXiv
Dark Fluid: Towards a unification of empirical theories of galaxy rotation,
Inflation and Dark Energy
HongSheng Zhao, Baojiu Li
arXiv
Are sterile neutrinos consistent with clusters, the CMB, and MOND?
Angus, G.W.
arXiv
Gravitational Lensing
[22] 1983, ApJ, 270, 365
Milgrom, M.
A modification of the Newtonian dynamics as a possible alternative
to the hidden mass hypothesis
ADS
Bekenstein, J. D., & Sanders, R. H.
Gravitational lenses and unconventional gravity theories
ADS |
arXiv
Qin, B., Wu, X.P., & Zou, Z.L.
An attempt to empirically evaluate the gravitational deflection of light in
the modified Newtonian dynamics.
ADS
Sanders, R. H.
A Stratified Framework for Scalar-Tensor Theories of
Modified Dynamics
ADS |
arXiv
Mordehai Milgrom
The Modified Dynamics--A Status Review
arXiv
Edery, A.
The Bright Side of Dark Matter
arXiv |
Comments |
Rebutted by Bekenstein, Milgrom, & Sanders
Bekenstein, J.D., Milgrom, M., & Sanders, R.H.
Comment on "The Bright Side of Dark Matter" by A. Edery
arXiv |
Rebuts Edery
Mortlock, D.J., Turner, E.L.
Gravitational lensing and modified Newtonian dynamics
arXiv
Mortlock, D.J., & Turner, E.L.
Empirical constraints on alternative gravity theories from gravitational
lensing
arXiv
Mortlock, D.J., & Turner, E.L.
Gravitational lensing in modified Newtonian dynamics
arXiv
Hoekstra, H., Yee, H., Gladders, M.
Current status of weak gravitational lensing
arXiv
Soussa, M.E. & Woodard, R.P.
A generic problem with purely metric formulations of MOND
arXiv
Winn, J.N., Hall, P.B. & Schechter, P.L.
Mass and dust in the disk of a spiral lens galaxy
arXiv |
Comments
Henk Hoekstra, Howard K.C. Yee, Michael D. Gladders
Properties of galaxy dark matter halos from weak lensing
arXiv
Clowe, D., Gonzalez, A., & Markevitch, M.
Weak lensing mass reconstruction of the interacting cluster 1E0657-558:
Direct evidence for the existence of dark matter
arXiv |
Comments
Bekenstein, J.D.
Relativistic gravitation theory for the MOND paradigm
arXiv
Chiu, M.-C., Ko, C.-M., & Tian, Y.
Theoretical Aspects of Gravitational Lensing in TeVeS
arXiv
Zhoa, H., Bacon, D.J., Taylor, A.N., & Horne, K.
Testing Bekenstein's Relativistic MOND gravity with Gravitational Lensing
arXiv
Angus, G.W., Famaey, B., & Zhao, H.S.
Can MOND take a bullet? Analytical comparisons of three versions of MOND beyond spherical symmetry
arXiv
Chen, D.-M., & Zhao, H.S.
Strong gravitational lens probability in TeVeS
arXiv
R. Takahashi, T. Chiba
Weak Lensing of Galaxy Clusters in MOND
arXiv
HongSheng Zhao
An introduction to Gravitational Lensing in TeVeS gravity
arXiv
The necessity of dark matter in MOND within galactic scales
Ferreras, Ignacio; Sakellariadou, Mairi; Furqaan Yusaf, Muhammad
arXiv
Is Gravitational Lensing by Intercluster Filaments Always Negligible?
Dong Xu, Martin Feix, HuanYuan Shan, Benoit Famaey, Marceau Limousin, HongSheng Zhao
arXiv
Strong lensing probability in TeVeS theory
Da-Ming Chen
arXiv
Asymmetric Gravitational Lenses in TeVeS and Application to the Bullet Cluster
M. Feix, C. Fedeli, M. Bartelmann
arXiv
An analytic model for non-spherical lenses in covariant MOND
HuanYuan Shan, Martin Feix, Benoit Famaey, HongSheng Zhao
arXiv
An analytic model for non-spherical lenses in covariant MOND
HuanYuan Shan, Martin Feix, Benoit Famaey, HongSheng Zhao
arXiv
Miscellaneous
[9] 1989, A&A, 211, 37
Milgrom, M.
Concerning the preferred surface density of giant molecular clouds in
the Galaxy
ADS
Milgrom, M.
The structure of Lyman-Alpha systems
ADS
Milgrom, M.
Can the hidden mass be negative?
ADS
Sanders, R.H. & Begeman, K.G.
Modified Dynamics (MOND) as a Dark Halo
ADS
Milgrom, M.
The shape of "dark matter" halos in disk galaxies according to the
modified dynamics
arXiv
Harald H. Soleng
Dark Matter and Non-Newtonian Gravity from General Relativity Coupled
to a Fluid of strings
Sanders, R. H.
Alternatives to dark matter
ADS
Sanders, R. H.
Finite length-scale anti-gravity and observations of mass discrepancies in
galaxies
ADS
Sanders, R. H.
Anti-gravity and galaxy rotation curves
ADS
Liboff, R.L.
Generalized Newtonian force law and hidden mass
ADS
Selman, F.J.
MOND and the Feeding of the Monster: The Conveyor Belt
ADS
Selman, F.J.
Mass Segregation in the Universe: Dark Matter or MOND?
Mendes, S.O., & Opher, R.
Sub-mm gravity: confronting the modified dynamics with
higher-dimensional theories
arXiv
Sellwood, J.A., & Kosowsky, A.
Distinguishing Dark Matter from Modified Gravity
arXiv
Read, J.I., & Moore, B.
Tidal streams in a MOND potential: constraints from Sagittarius
arXiv
Cline, D.B.
The Search for Dark Matter, Einstein's Cosmology and MOND
arXiv |
Comments
Zhao, H.-S., & Tian, L.-L.
Roche Lobe Shapes for testing MOND-like Modified Gravity
arXiv
Luc Blanchet
Gravitational polarization and the MOND phenomenology
arXiv
Famaey, B., Bruneton, J.-P., & Zhao, H.S.
Escaping from MOND
arXiv
F.J. Sanchez-Salcedo, X. Hernandez
Tidal radii and escape speeds in dwarf spheroidal galaxies under MOND
and dark halos compared
arXiv
Burra G.Sidharth
The Dark Matter Puzzle And Other Issues
arXiv
E. O. Kahya, R. P. Woodard
A Generic Test of Modified Gravity Models which Emulate Dark Matter
arXiv
Orfeu Bertolami, Christian G. Boehmer, Tiberiu Harko, Francisco S.N. Lobo
Extra force in f(R) modified theories of gravity
arXiv
MOND, dark matter, and conservation of energy
Ahmad Shariati, Nosratollah Jafari
arXiv
Around MOND: Lagrangians, Hubble Equations, Perturbations and External Field Effect
Halle, Anaelle
arXiv
A Decisive test to confirm or rule out existence of dark matter using
gravitational wave observations
E. O. Kahya
arXiv
An Uneven Vacuum Energy Fluid as $\Lambda$, Dark Matter, MOND and Lens
HongSheng Zhao
arXiv
Do Newton's G and Milgrom's a_0 vary with cosmological epoch?
Jacob D. Bekenstein, Eva Sagi
arXiv
Newton's second law versus modified-inertia MOND: a test using the high-latitude effect
A. Yu. Ignatiev
arXiv
A possible solution to the Dark Matter, Dark Energy, and Pioneer Anomaly problems via a VSL approach
Roee Amit
arXiv
Effects of MOND in Strong Gravity: Tight Correlations of Black Hole vs Bulge
HongSheng Zhao, Bing-Xiao Xu, Clare Dobbs
arXiv
Gravity Gets There First with Dark Matter Emulators
Desai, S., Kahya, E.O., Woodard, R.P.
arXiv
Are sterile neutrinos consistent with clusters, the CMB, and MOND?
Angus, G.W.
arXiv
Reinterpreting MOND: coupling of Einsteinian gravity and spin of cosmic
neutrinos?
Zhao, H.-S.
arXiv