Literature DB >> 28163623

Modified Newtonian Dynamics (MOND): Observational Phenomenology and Relativistic Extensions.

Benoît Famaey1, Stacy S McGaugh2.   

Abstract

A wealth of astronomical data indicate the presence of mass discrepancies in the Universe. The motions observed in a variety of classes of extragalactic systems exceed what can be explained by the mass visible in stars and gas. Either (i) there is a vast amount of unseen mass in some novel form - dark matter - or (ii) the data indicate a breakdown of our understanding of dynamics on the relevant scales, or (iii) both. Here, we first review a few outstanding challenges for the dark matter interpretation of mass discrepancies in galaxies, purely based on observations and independently of any alternative theoretical framework. We then show that many of these puzzling observations are predicted by one single relation - Milgrom's law - involving an acceleration constant a0 (or a characteristic surface density Σ† = a0/G) on the order of the square-root of the cosmological constant in natural units. This relation can at present most easily be interpreted as the effect of a single universal force law resulting from a modification of Newtonian dynamics (MOND) on galactic scales. We exhaustively review the current observational successes and problems of this alternative paradigm at all astrophysical scales, and summarize the various theoretical attempts (TeVeS, GEA, BIMOND, and others) made to effectively embed this modification of Newtonian dynamics within a relativistic theory of gravity.

Year:  2012        PMID: 28163623      PMCID: PMC5255531          DOI: 10.12942/lrr-2012-10

Source DB:  PubMed          Journal:  Living Rev Relativ        ISSN: 1433-8351            Impact factor:   40.429


  35 in total

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3.  Gravitational redshift of galaxies in clusters as predicted by general relativity.

Authors:  Radosław Wojtak; Steen H Hansen; Jens Hjorth
Journal:  Nature       Date:  2011-09-28       Impact factor: 49.962

4.  Nearby galaxies as pointers to a better theory of cosmic evolution.

Authors:  P J E Peebles; Adi Nusser
Journal:  Nature       Date:  2010-06-03       Impact factor: 49.962

5.  Probing gravity at cosmological scales by measurements which test the relationship between gravitational lensing and matter overdensity.

Authors:  Pengjie Zhang; Michele Liguori; Rachel Bean; Scott Dodelson
Journal:  Phys Rev Lett       Date:  2007-10-04       Impact factor: 9.161

6.  Large scale structure in Bekenstein's theory of relativistic modified Newtonian dynamics.

Authors:  C Skordis; D F Mota; P G Ferreira; C Boehm
Journal:  Phys Rev Lett       Date:  2006-01-03       Impact factor: 9.161

7.  Missing mass in collisional debris from galaxies.

Authors:  Frédéric Bournaud; Pierre-Alain Duc; Elias Brinks; Médéric Boquien; Philippe Amram; Ute Lisenfeld; Bärbel S Koribalski; Fabian Walter; Vassilis Charmandaris
Journal:  Science       Date:  2007-05-10       Impact factor: 47.728

8.  Bulgeless dwarf galaxies and dark matter cores from supernova-driven outflows.

Authors:  F Governato; C Brook; L Mayer; A Brooks; G Rhee; J Wadsley; P Jonsson; B Willman; G Stinson; T Quinn; P Madau
Journal:  Nature       Date:  2010-01-14       Impact factor: 49.962

9.  Universality of galactic surface densities within one dark halo scale-length.

Authors:  Gianfranco Gentile; Benoit Famaey; HongSheng Zhao; Paolo Salucci
Journal:  Nature       Date:  2009-10-01       Impact factor: 49.962

10.  Search for dark matter in events with one jet and missing transverse energy in pp¯ collisions at √s=1.96 TeV.

Authors:  T Aaltonen; B Alvarez González; S Amerio; D Amidei; A Anastassov; A Annovi; J Antos; G Apollinari; J A Appel; T Arisawa; A Artikov; J Asaadi; W Ashmanskas; B Auerbach; A Aurisano; F Azfar; W Badgett; T Bae; Y Bai; A Barbaro-Galtieri; V E Barnes; B A Barnett; P Barria; P Bartos; M Bauce; F Bedeschi; S Behari; G Bellettini; J Bellinger; D Benjamin; A Beretvas; A Bhatti; D Bisello; I Bizjak; K R Bland; B Blumenfeld; A Bocci; A Bodek; D Bortoletto; J Boudreau; A Boveia; L Brigliadori; C Bromberg; E Brucken; J Budagov; H S Budd; K Burkett; G Busetto; P Bussey; A Buzatu; A Calamba; C Calancha; S Camarda; M Campanelli; M Campbell; F Canelli; B Carls; D Carlsmith; R Carosi; S Carrillo; S Carron; B Casal; M Casarsa; A Castro; P Catastini; D Cauz; V Cavaliere; M Cavalli-Sforza; A Cerri; L Cerrito; Y C Chen; M Chertok; G Chiarelli; G Chlachidze; F Chlebana; K Cho; D Chokheli; W H Chung; Y S Chung; M A Ciocci; A Clark; C Clarke; G Compostella; M E Convery; J Conway; M Corbo; M Cordelli; C A Cox; D J Cox; F Crescioli; J Cuevas; R Culbertson; D Dagenhart; N d'Ascenzo; M Datta; P de Barbaro; M Dell'Orso; L Demortier; M Deninno; F Devoto; M d'Errico; A Di Canto; B Di Ruzza; J R Dittmann; M D'Onofrio; S Donati; P Dong; M Dorigo; T Dorigo; K Ebina; A Elagin; A Eppig; R Erbacher; S Errede; N Ershaidat; R Eusebi; S Farrington; M Feindt; J P Fernandez; R Field; G Flanagan; R Forrest; P J Fox; M J Frank; M Franklin; J C Freeman; Y Funakoshi; I Furic; M Gallinaro; J E Garcia; A F Garfinkel; P Garosi; H Gerberich; E Gerchtein; S Giagu; V Giakoumopoulou; P Giannetti; K Gibson; C M Ginsburg; N Giokaris; P Giromini; G Giurgiu; V Glagolev; D Glenzinski; M Gold; D Goldin; N Goldschmidt; A Golossanov; G Gomez; G Gomez-Ceballos; M Goncharov; O González; I Gorelov; A T Goshaw; K Goulianos; S Grinstein; C Grosso-Pilcher; R C Group; J Guimaraes da Costa; S R Hahn; E Halkiadakis; A Hamaguchi; J Y Han; F Happacher; K Hara; D Hare; M Hare; R Harnik; R F Harr; K Hatakeyama; C Hays; M Heck; J Heinrich; M Herndon; S Hewamanage; A Hocker; W Hopkins; D Horn; S Hou; R E Hughes; M Hurwitz; U Husemann; N Hussain; M Hussein; J Huston; G Introzzi; M Iori; A Ivanov; E James; D Jang; B Jayatilaka; E J Jeon; S Jindariani; M Jones; K K Joo; S Y Jun; T R Junk; T Kamon; P E Karchin; A Kasmi; Y Kato; W Ketchum; J Keung; V Khotilovich; B Kilminster; D H Kim; H S Kim; J E Kim; M J Kim; S B Kim; S H Kim; Y K Kim; Y J Kim; N Kimura; M Kirby; S Klimenko; K Knoepfel; K Kondo; D J Kong; J Konigsberg; A V Kotwal; M Kreps; J Kroll; D Krop; M Kruse; V Krutelyov; T Kuhr; M Kurata; S Kwang; A T Laasanen; S Lami; S Lammel; M Lancaster; R L Lander; K Lannon; A Lath; G Latino; T Lecompte; E Lee; H S Lee; J S Lee; S W Lee; S Leo; S Leone; J D Lewis; A Limosani; C-J Lin; M Lindgren; E Lipeles; A Lister; D O Litvintsev; C Liu; H Liu; Q Liu; T Liu; S Lockwitz; A Loginov; D Lucchesi; J Lueck; P Lujan; P Lukens; G Lungu; J Lys; R Lysak; R Madrak; K Maeshima; P Maestro; S Malik; G Manca; A Manousakis-Katsikakis; F Margaroli; C Marino; M Martínez; P Mastrandrea; K Matera; M E Mattson; A Mazzacane; P Mazzanti; K S McFarland; P McIntyre; R McNulty; A Mehta; P Mehtala; C Mesropian; T Miao; D Mietlicki; A Mitra; H Miyake; S Moed; N Moggi; M N Mondragon; C S Moon; R Moore; M J Morello; J Morlock; P Movilla Fernandez; A Mukherjee; Th Muller; P Murat; M Mussini; J Nachtman; Y Nagai; J Naganoma; I Nakano; A Napier; J Nett; C Neu; M S Neubauer; J Nielsen; L Nodulman; S Y Noh; O Norniella; L Oakes; S H Oh; Y D Oh; I Oksuzian; T Okusawa; R Orava; L Ortolan; S Pagan Griso; C Pagliarone; E Palencia; V Papadimitriou; A A Paramonov; J Patrick; G Pauletta; C Paus; D E Pellett; A Penzo; T J Phillips; G Piacentino; E Pianori; J Pilot; K Pitts; C Plager; L Pondrom; S Poprocki; K Potamianos; F Prokoshin; A Pranko; F Ptohos; G Punzi; A Rahaman; V Ramakrishnan; N Ranjan; I Redondo; P Renton; M Rescigno; T Riddick; F Rimondi; L Ristori; A Robson; T Rodrigo; T Rodriguez; E Rogers; S Rolli; R Roser; F Ruffini; A Ruiz; J Russ; V Rusu; 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P Wittich; S Wolbers; H Wolfe; T Wright; X Wu; Z Wu; K Yamamoto; D Yamato; T Yang; U K Yang; Y C Yang; W-M Yao; G P Yeh; K Yi; J Yoh; K Yorita; T Yoshida; G B Yu; I Yu; S S Yu; J C Yun; A Zanetti; Y Zeng; C Zhou; S Zucchelli
Journal:  Phys Rev Lett       Date:  2012-05-23       Impact factor: 9.161
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  4 in total

1.  Interposing a Varying Gravitational Constant Between Modified Newtonian Dynamics and Weak Weyl Gravity.

Authors:  Dimitris M Christodoulou; Demosthenes Kazanas
Journal:  Mon Not R Astron Soc Lett       Date:  2018-06-28

Review 2.  Dynamical Boson Stars.

Authors:  Steven L Liebling; Carlos Palenzuela
Journal:  Living Rev Relativ       Date:  2012-05-08       Impact factor: 40.429

3.  Galaxy rotation curves via conformal factors.

Authors:  Ciprian A Sporea; Andrzej Borowiec; Aneta Wojnar
Journal:  Eur Phys J C Part Fields       Date:  2018-04-18       Impact factor: 4.590

Review 4.  Dynamical boson stars.

Authors:  Steven L Liebling; Carlos Palenzuela
Journal:  Living Rev Relativ       Date:  2017-11-13       Impact factor: 40.429
  4 in total

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