Non-Baryonic Dark Matter

Gondolo, Paolo

doi:10.1007/1-4020-3057-6_16

Paolo Gondolo³

Part of the book series: NATO Science Series ((NAII,volume 187))

428 Accesses
4 Citations

This is a preview of subscription content, log in via an institution to check access.

Access this chapter

Log in via an institution

Chapter: USD 29.95; Price excludes VAT (USA)

eBook: USD 259.00; Price excludes VAT (USA)

Softcover Book: USD 329.99; Price excludes VAT (USA)

Hardcover Book: USD 329.99; Price excludes VAT (USA)

Tax calculation will be finalised at checkout

Purchases are for personal use only

Institutional subscriptions

Preview

Unable to display preview. Download preview PDF.

References

Abazajian, K., Fuller, G. M., & Patel, M. 2001. “Sterile neutrino hot, warm, and cold dark matter,” Phys. Rev. D64, 023501
Google Scholar
Abrams, D., et al. [CDMS Collaboration] 2002. “Exclusion limits on the WIMP nucleon cross-section from the cryogenic dark matter search,” Phys. Rev. D66, 122003
Google Scholar
Ahlen, S. P., Avignone, F. T., Brodzinski, R. L., Drukier, A. K., Gelmini, G. & Spergel, D. N. 1987. “Limits On Cold Dark Matter Candidates From An Ultralow Background Germanium Spectrometer,” Phys. Lett. B195, 603
Article Google Scholar
Ahmad, Q. R., et al. [SNO Collaboration] 2002. “Direct evidence for neutrino flavor transformation from neutral-current interactions in the Sudbury Neutrino Observatory,” Phys. Rev. Lett.89, 011301
Google Scholar
Ahrens, J., et al. [AMANDA Collaboration] 2002. “Limits to the muon flux from WIMP annihilation in the center of the earth with the AMANDA detector,” Phys. Rev. D66, 032006
Google Scholar
Akerib, D. S., et al. [CDMS Collaboration] 2003. “New results from the Cryogenic Dark Matter Search experiment,” Phys. Rev. D68, 082002
Google Scholar
Allanach, B. C., Kraml, S. & Porod, W. 2003. “Theoretical uncertainties in sparticle mass predictions from computational tools,” JHEP 0303, 016
Google Scholar
Aschenbach, B., Grosso, N., Porquet, D., & Predehl, P. 2004. “X-ray flares reveal mass and angular momentum of the Galactic Center black hole.” Preprint astro-ph/0401589
Google Scholar
Asztalos, S. J., et al. 2004. “An improved RF cavity search for halo axions,” Phys. Rev.D69, 011101
Google Scholar
Baganoff, F. K. et al. 2001. “Rapid X-ray flaring from the direction of the supermassive black hole at the Galactic Centre,” Nature413, 45
Article PubMed Google Scholar
Bahcall, J. N. & Soneira, R. M. 1980. “The universe at faint magnitudes. I — Models for the galaxy and the predicted star counts,” ApJS 44, 73
Article Google Scholar
Baltz, E. A., Edsjö, J., Freese, K., & Gondolo, P. 2002. “Cosmic ray positron excess and neutralino dark matter,” Phys. Rev. D65, 063511
Google Scholar
Baltz, E. A. & Gondolo, P. 2001. “Implications of Muon Anomalous Magnetic Moment for Supersymmetric Dark Matter,” Phys. Rev. Lett.86, 5004
Article PubMed Google Scholar
Baltz, E. A. & Gondolo, P. 2003. “Improved constraints on supersymmetric dark matter from muon g-2,” Phys. Rev. D67, 063503
Google Scholar
Belli, P. 1997. Talk at TAUP 97, LNGS, Italy [published in R. Bernabei et al., Nucl. Phys. B (Proc. Suppl.) 70 (1999) 79].
Google Scholar
Benoît, A., et al. [EDELWEISS Collaboration] 2002. “Improved exclusion limits from the EDELWEISS WIMP search,” Phys. Lett. B545, 43
Article Google Scholar
Bergström, L. 2000. “Non-baryonic dark matter: observational evidence and detection methods,” Rept. Prog. Phys. 63, 793
Article Google Scholar
Bergström, L., Edsjö, J., & Gondolo, P. 1998. “Indirect detection of dark matter in km-size neutrino telescopes,” Phys. Rev. D58, 103519
Google Scholar
Bergström, L., Edsjö, J., & Ullio, P. 2001. “Spectral gamma-ray signatures of cosmological dark matter annihilations,” Phys. Rev. Lett.87, 251301
Google Scholar
Bergström, L. & Gondolo, P. 1996. “Limits on direct detection of neutralino dark matter from b → sγ decays,” Astropart. Phys. 5, 263
Article Google Scholar
Bergström, L., Ullio, P., & Buckley, J. H. 1998. “Observability of gamma rays from dark matter neutralino annihilations in the Milky Way halo,” Astropart. Phys. 9, 137
Article Google Scholar
Bernabei, R., et al. 1998. “Searching For Wimps By The Annual Modulation Signature,” Phys. Lett. B424, 195
Article Google Scholar
Bernabei, R., et al. 1999. “On a further search for a yearly modulation of the rate in particle darkmatter direct search,” Phys. Lett. B450, 448
Article Google Scholar
Bernabei, R., et al. 2000. “Search for WIMP annual modulation signature: Results from DAMA/NaI-3 andDAMA/NaI-4 and the global combined analysis,” Phys. Lett. B480, 23
Article Google Scholar
Bernabei, R., et al. 2003. “Dark matter search,” Riv. Nuovo Cim. 26, 1
Google Scholar
Binetruy, P., Girardi, G., & Salati, P. 1984. “Constraints On A System Of Two Neutral Fermions From Cosmology,” Nucl. Phys. B237, 285
Article Google Scholar
Birrell, N. D. & Davies, P. C. W., 1982. “Quantum Fields in Curved Space” (Cambridge: Cambridge UniversityPress)
Google Scholar
Buckley, J., et al. 2001.“Gamma-ray summary report,” in Proc. of the APS/DPF/ DPB Summer Study on the Future of Particle Physics (Snowmass 2001), ed N. Graf, eConf C010630, P407 [astro-ph/0201160]
Google Scholar
Cembranos, J. A. R., Dobado, A., & Maroto, A. L. 2003. “Brane-world dark matter,” Phys. Rev. Lett.90, 241301
Google Scholar
Cheng, H. C., Feng, J. L., & Matchev, K. T. 2002. “Kaluza-Klein dark matter,” Phys. Rev. Lett. 89, 211301
Google Scholar
Chung, D. J. H., Kolb, E. W.., & Riotto, A. 1988. “Nonthermal supermassive dark matter,” Phys. Rev. Lett.81, 4048
Article Google Scholar
Chung, D. J. H., Kolb, E. W.., & Riotto, A. 1999. “Superheavy dark matter,” Phys. Rev. D59, 023501
Google Scholar
Chung, D. J. H., Notari, A., & Riotto, A. 2003. “Minimal theoretical uncertainties in inflationary predictions,” JCAP 10, 012
Google Scholar
Dine, D., Fischler, W., & Srednicki, M. 1981. “A Simple Solution To The Strong CP Problem With A Harmless Axion,” Phys. Lett. B104, 199
Article Google Scholar
Dolgov, A. D. 2002. “Neutrinos in Cosmology,” Phys. Rep. 370, 333
Article Google Scholar
Drukier, A. K., Freese, K., & Spergel, D. N. 1986. “Detecting Cold Dark Matter Candidates,” Phys. Rev. D33, 3495
Article Google Scholar
Duda, G., Gelmini, G., Gondolo, P., Edsjö, J., & Silk, J. 2003. “Indirect detection of a subdominant density component of cold dark matter,” Phys. Rev. D67, 023505
Google Scholar
Edsjö, J. & Gondolo, P. 1997. “Neutralino relic density including coannihilations,” Phys. Rev. D56, 1879
Article Google Scholar
Edsjö, J., Schelke, M., Ullio, P., & Gondolo, P. 2003. “Accurate relic densities with neutralino, chargino and sfermion coannihilations in mSUGRA,” JCAP 0304, 001
Google Scholar
Eckart, A., & Genzel, R. 1997. “Stellar proper motions in the central 0.1 pc of the Galaxy,” MNRAS284, 576
Google Scholar
Ellis, J. R., Ferstl, A., & Olive, K. A. 2000. “Reevaluation of the elastic scattering of supersymmetric dark matter,” Phys. Lett. B481, 304
Article Google Scholar
Ellis, J. R., Hagelin, J. S., Nanopoulos, D. V., Olive, K. A., & Srednicki, M. 1984. “Supersymmetric Relics From The Big Bang,” Nucl. Phys. B238, 453
Article Google Scholar
Feng, J. L., Matchev, K. T., & Wilczek, F. 2000. “Neutralino dark matter in focus point supersymmetry,” Phys. Lett. B482, 388
Article Google Scholar
Freese, K., Frieman, J. A., & Gould, A. 1988. “Signal Modulation In Cold Dark Matter Detection,” Phys. Rev. D37, 3388
Article Google Scholar
Freese, K., Gondolo, P., & Newberg, H. 2003. “Detectability of weakly interacting massive particles in the Sagittarius dwarf tidal stream.” Preprint astro-ph/0309279
Google Scholar
Freese, K., Gondolo, P., Newberg, H., & Lewis, M. 2003. “The Effects of the Sagittarius Dwarf Tidal Stream on Dark Matter Detectors,” Phys. Rev. Lett., to appear [Preprint astro-ph/0310334]
Google Scholar
Fukuda, Y., et al. [Super-Kamiokande Collaboration] 1998. “Evidence for oscillation of atmospheric neutrinos,” Phys. Rev. Lett.81, 1562
Article Google Scholar
Fukugita, M., Hogan, C. J., & Peebles, P. J. E. 1998. “The Cosmic Baryon Budget,” ApJ503, 518
Article Google Scholar
Fulling, S. A. 1979. “Remarks On Positive Frequency And Hamiltonians In Expanding Universes,” Gen. Rel. Grav. 10, 807
Article Google Scholar
Fulling, S. A., 1989. “Aspects of Quantum Field Theory in Curved Spacetime” (Cambridge: CambridgeUniversity Press)
Google Scholar
Genzel, R. et al. 2003. “The Stellar Cusp Around the Supermassive Black Hole in the Galactic Center,” ApJ594, 812
Article Google Scholar
Genzel, R., Schödel, R., Ott, T., Eckart, A., Alexander, T., Lacombe, F., Rouan, D., & Aschenbach, B. 2003b. “Near-infrared flares from accreting gas around the supermassive black hole at the Galactic Centre,” Nature425, 934
Article PubMed Google Scholar
Ghez, A. M., Klein, B. C., Morris, M., & Becklin, E. E. 1998. “High Proper-Motion Stars in the Vicinity of Sagittarius A*: Evidence for a Supermassive Black Hole at the Center of Our Galaxy,” ApJ509, 678
Article Google Scholar
Ghez, A. M., Salim, S., Hornstein, S. D., Tanner, A., Morris, M., Becklin, E. E., & Duchêne, G. 2003. “Stellar Orbits Around the Galactic Center Black Hole.” Preprint astro-ph/0306130
Google Scholar
Gnedin, O. Y. & Ostriker, J. P. 2001. “Limits on Collisional Dark Matter from Elliptical Galaxies in Clusters,” ApJ561, 61
Article Google Scholar
Goldberg, H. 1983. “Constraint On The Photino Mass From Cosmology,” Phys. Rev. Lett.50, 1419
Article Google Scholar
Gondolo, P. 1996. “Phenomenological introduction to direct dark matter detection,” in XXXI Rencontres de Moriond: Dark Matter in Cosmology, Quantum Measurements, Experimental Gravitation, Les Arcs, France[hep-ph/96-05290].
Google Scholar
Gondolo, P. 2000a. “Indirect detection of dark matter.” Plenary talk at Neutrino 2000, Sudbury, Canada.
Google Scholar
Gondolo, P. 2000b. “Either neutralino dark matter or cuspy dark halos,” Phys. Lett. B494, 181
Article Google Scholar
Gondolo, P. 2002c. “Recoil momentum spectrum in directional dark matter detectors,” Phys. Rev. D66, 103513
Google Scholar
Gondolo, P. 2002d. “Neutrinos from dark matter.” Talk at the NSF Meeting on Neutrinos and Subterranean Science, Washington, D.C.
Google Scholar
Gondolo, P., Edsjö, J., Bergström, L., Ullio, P., & Baltz, E. A. 2000. “Dark-SUSY: A numerical package for dark matter calculations in the MSSM.” Preprint astro-ph/0012234
Google Scholar
Gondolo, P., Edsjö, J., Ullio, P., Bergström, L., Schelke, M., & Baltz, E. A. 2002. “DarkSUSY: A numerical package for supersymmetric dark matter calculations.” Preprint astro-ph/0211238. See http://www.physto.se/~edsjo/darksusy
Google Scholar
Gondolo, P. & Gelmini, G. B. 1991. “Cosmic Abundances Of Stable Particles: Improved Analysis,” Nucl. Phys. B360, 145
Article Google Scholar
Gondolo, P. & Silk, J. 1999. “Dark matter annihilation at the galactic center,” Phys. Rev. Lett.83, 1719
Article Google Scholar
Griest, K. & Seckel, D. 1991. “Three Exceptions In The Calculation Of Relic Abundances,” Phys. Rev. D43, 3191
Article Google Scholar
Habig, A. [Super-Kamiokande Collaboration] 2001. “An indirect search for WIMPs with Super-Kamiokande.” Preprint hep-ex/0106024
Google Scholar
Hagiwara, K., et al. [Particle Data Group Collaboration] 2002. “Review Of Particle Physics,” Phys. Rev. D66, 010001
Google Scholar
Hall, L. J., Moroi, T., & Murayama, H. 1998. “Sneutrino cold dark matter with lepton-number violation,” Phys. Lett. B424, 305
Article Google Scholar
Hooper, D., & Dingus, B. L. 2002. “Limits on supersymmetric dark matter from EGRET observations of the galactic center region.” Preprint astroph/0210617
Google Scholar
Ibata, R., Lewis, G. F., Irwin, M., Totten, E., & Quinn, T. 2001. “Great Circle Tidal Streams: Evidence for a Nearly Spherical Massive Dark Halo around the Milky Way,” ApJ551, 294
Google Scholar
Ibata, R. A., Wyse, R. F. G., Gilmore, G., Irwin, M. J., & Suntzeff, N. B. 1997. “The Kinematics, Orbit, and Survival of the Sagittarius Dwarf Spheroidal Galaxy,” AJ113, 634
Article Google Scholar
Jungman, G., Kamionkowski, M., & Griest, K. 1996. “Supersymmetric dark matter,” Phys. Rep. 267, 195
Article Google Scholar
Kane, G. L., Wang, L. T., & Wells, J. D. 2002. “Supersymmetry and the positron excess in cosmic rays,” Phys. Rev. D65, 057701
Google Scholar
Kim, J. E. 1979. “Weak Interaction Singlet And Strong CP Invariance,” Phys. Rev. Lett.43, 103
Article Google Scholar
Kuzmin, V., & Tkachev, I. 1998. “Ultra-high energy cosmic rays, superheavy long-living particles, and matter creation after inflation,” JETP Lett. 68, 271
Article Google Scholar
Lauer, T. R., Statler, T. S., Ryden, B. S., & Weinberg, D. H. 1986 (approx). “A New and Definitive Meta-Cosmology Theory.” Scanned images available on Steve McGaugh’s website at www.astro.umd.edu/~ssm/mond/flowchart.html.
Google Scholar
Ma, C.-P. 1999. “Neutrinos and Dark Matter.” Preprint astro-ph/9904001
Google Scholar
Majewski, S. R., Skrutskie, M. F., Weinberg, M. D., & Ostheimer, J. C. 2003. “A Two Micron All Sky Survey View of the Sagittarius Dwarf Galaxy. I. Morphology of the Sagittarius Core and Tidal Arms,” ApJ599, 1082
Article Google Scholar
Markevitch, M., et al. 2003. “Direct constraints on the dark matter self-interaction cross-section from the merging galaxy cluster 1E0657-56.” Preprint astroph/0309303
Google Scholar
Mayer-Hasselwander, H. A. et al. 1998. ldHigh-energy gamma-ray emission from the Galactic Center,” A&A335, 161
Google Scholar
Merritt, D., Milosavljević, M., Verde, L., & Jimenez, R. 2002. “Dark Matter Spikes and Annihilation Radiation from the Galactic Center,” Phys. Rev. Lett.88, 191301
Google Scholar
Miralda-Escudé, J. 2002. “A Test of the Collisional Dark Matter Hypothesis from Cluster Lensing,” ApJ564, 60
Article Google Scholar
Moore, B., Governato, F., Quinn, T., Stadel, J., & Lake, G. 1998. “ApJL,” Resolving the Structure of Cold Dark Matter Halos499, L5
Google Scholar
Navarro, J. F., Frenk, C. S., & White, S. D. M. 1996. “The Structure of Cold Dark Matter Halos,” ApJ462, 563
Article Google Scholar
Newberg, H. J., Yanny, B., Grebel, E. K., Hennessy, G., Ivezic, Z., Martinez-Delgado, D., Odenkirchen, M., Rix, H.-W., Brinkmann, J., Lamb, D. Q., Schneider, D. P., & York, D. 2003. “Sagittarius Tidal Debris 90 Kiloparsecs from the Galactic Center,” ApJL596, 191
Article Google Scholar
Peccei, R. D., & Quinn, H. R. 1977. “CP Conservation In The Presence Of Instantons,” Phys. Rev. Lett.38, 1440
Article Google Scholar
Persic, M., Salucci, P., & Stel, F. 1996. “The universal rotation curve of spiral galaxies — I. The dark matter connection,” MNRAS281, 27; Erratum ibid. 283, 1102 (1996)
Google Scholar
Porquet, D., Predehl, P., Aschenbach, B., Grosso, N., Goldwurm, A., Goldoni, P., Warwick, R. S., & Decourchelle, A. 2003. “XMM-Newton observation of the brightest X-ray flare detected so far from Sgr A*,” A&A407, L17
Google Scholar
Primack, J. R. 2001. “Whatever Happened to Hot Dark Matter?,” SLAC Beam Line31N3, 50 [Preprint astro-ph/0112336]
Google Scholar
Sarkar, S. 2003. “Neutrinos from the Big Bang.” Preprint hep-ph/0302175
Google Scholar
Shifman, M. A., Vainshtein, A. I., & Zakharov, V. I. 1980. “Can Confinement Ensure Natural CP Invariance Of Strong Interactions?,” Nucl. Phys. B166, 493
Article Google Scholar
Silk, J. 2003. Lectures at this School.
Google Scholar
Snowden-Ifft, D. P., Martoff, C. J., & Burwell, J. M. 2000. “Low pressure negative ion drift chamber for dark matter search,” Phys. Rev. D61, 101301
Google Scholar
Spergel, D. N. & Steinhardt, P. J. 2000. “Observational Evidence for Self-Interacting Cold Dark Matter,” Phys. Rev. Lett.84, 3760
Article PubMed Google Scholar
Spergel, D. N., et al. 2003. “First-Year Wilkinson Microwave Anisotropy Probe (WMAP) Observations: Determination of Cosmological Parameters,” ApJS 148, 175
Article Google Scholar
Stiff, D., Widrow, L.M., & Frieman, J. 2001. “Signatures of hierarchical clustering in dark matter detectionexperiments,” Phys. Rev. D64, 083516
Google Scholar
Tovey, D. R., Gaitskell, R. J., Gondolo, P., Ramachers, Y., & Roszkowski, L. 2000. “A new model-independent method for extracting spin-dependent cross section limits from dark matter searches,” Phys. Lett. B488, 17
Article Google Scholar
Ullio, P., Bergström, L., Edsjö, J., & Lacey, C. 2002. “Cosmological dark matter annihilations into γ rays: A closer look,” Phys. Rev. D66, 123502
Google Scholar
Verde, L., et al. 2002. “The 2dF Galaxy Redshift Survey: the bias of galaxies and the density of the Universe,” MNRAS335, 432
Article Google Scholar
Wald, R. M., 1994. “Quantum Field Theory In Curved Space-Time And Black Hole Thermodynamics” (Chicago, IL: University of Chicago Press)
Google Scholar
Yoshida, N., Springel, V., White, S. D. M., & Tormen, G. 2000. “Weakly Self-interacting Dark Matter and the Structure of Dark Halos,” ApJL544, L87
Article Google Scholar
Zhitnitsky, A. R. 1980. “On possible suppression of the axion hadron interactions,” Sov. J. Nucl. Phys. 31, 260
Google Scholar

Download references

Author information

Authors and Affiliations

Department of Physics, University of Utah, 115 South 1400 East, Suite 201, Salt Lake City, Utah, 84112, USA
Paolo Gondolo

Authors

Paolo Gondolo
View author publications
You can also search for this author in PubMed Google Scholar

Editor information

Editors and Affiliations

Observatoire Midi-Pyrénées, Toulouse, France
Alain Blanchard
Observatoire de Paris, Paris, France
Monique Signore

Rights and permissions

Reprints and permissions

Copyright information

About this paper

Cite this paper

Gondolo, P. (2005). Non-Baryonic Dark Matter. In: Blanchard, A., Signore, M. (eds) Frontiers of Cosmology. NATO Science Series, vol 187. Springer, Dordrecht. https://doi.org/10.1007/1-4020-3057-6_16

Download citation

DOI: https://doi.org/10.1007/1-4020-3057-6_16
Publisher Name: Springer, Dordrecht
Print ISBN: 978-1-4020-3055-0
Online ISBN: 978-1-4020-3057-4
eBook Packages: Physics and AstronomyPhysics and Astronomy (R0)

Publish with us

Policies and ethics