Dark Matter in the Universe: Proceedings of the Third Nishinomiya-Yukawa Memorial Symposium, Nishinomiya City, 10-11 November 1988Fumitaka Satō, Hideo Kodama The current IT environment deals with novel, complex approaches such as information privacy, trust, digital forensics, management, and human aspects. This volume includes papers offering research contributions that focus both on access control in complex environments as well as other aspects of computer security and privacy. |
Contents
Tracing LargeScale Structure in the Universe | 1 |
Cosmic Background Radiation in the Submillimeter Range | 19 |
Mass Density of the Universe and Dark Matter | 32 |
Copyright | |
6 other sections not shown
Other editions - View all
Dark Matter in the Universe: Proceedings of the Third Nishinomiya-Yukawa ... Humitaka Sato,Hideo Kodama No preview available - 2012 |
Dark Matter in the Universe: Proceedings of the Third Nishinomiya-Yukawa ... Humitaka Sato,Hideo Kodama No preview available - 1990 |
Common terms and phrases
absorption absorption-line systems abundance Ap.J Arecibo sample Astron Astrophys astrophysical axion axion mass baryon calibration catalog cavity coherence cold dark matter constraints cosmic axion strings cosmic rays cosmological Davis detection detector dipole distribution emission energy density evolution Figure fluctuations flux galactic halo galaxy formation Geller Giovanelli high-density region Hubble constant Huchra initial spectral index intergalactic IRAS galaxies Isocurvature km/s large-scale structure Lett low-density region luminosity density luminosity function Lyman magnetic field mass density microwave background Nambu-Goldstone boson neutrinos nucleon nucleosynthesis number density observed omion optical Ostriker particle peculiar velocity phase transition photons Phys physical Pisces-Perseus power spectrum preprint present primordial primordial nucleosynthesis proton diffusion QSOs quark phase radiation range redshift survey Reionized right ascension scale scenario Schechter solar submillimeter temperature theory universe upper limit void wavelength wavenumber WIMPS