Phys Rev Lett. Nov 30;59(22) Anthropic bound on the cosmological constant. Weinberg S. PMID: Download Citation on ResearchGate | Anthropic Bound on the Cosmological Constant | In recent cosmological models, there is an “anthropic” upper bound on . The anthropic bound on a positive vacuum energy density is set by the requirement that rho V should not be so large as to prevent the formation of galaxies.
|Published (Last):||2 January 2006|
|PDF File Size:||14.66 Mb|
|ePub File Size:||9.62 Mb|
|Price:||Free* [*Free Regsitration Required]|
Is there another coincidence problem at the reionization epoch? Higgs and flavour as doors to new physics – Sala, Filippo Eur. Tunneling in quantum field theory and semiclassical gravity – Wohns, Dan Funch.
There was a problem providing the content you requested
Axionic landscape for Higgs coupling near-criticality – Cline, James M. Cosmic acceleration from holographic information capacity – Butcher, Luke M. Dark Matter in the Standard Model? Exacerbating the cosmological constant problem with interacting dark energy models – Marsh, M. Turnaround hte as a cosmological observable: New Proposals and their Phenomenology – Vernieri, Daniele.
Anthropic bound on the cosmological constant.
Another Anthropic principle aspect? Higgs Physics and Cosmology – Roberts, Alex. Information References 11 Citations Files Plots. Dark energy from the motions of neutrinos – Simpson, Fergus et al.
This site is also available in the following languages: Open problems in mathematical physics – Coley, Alan A. Geometric and growth rate tests of General Relativity with recovered linear cosmologiical perturbations – Wilson, Michael J. The Covariant path integral and quantization of the conformal factor – Mottola, E.
Collider Physics within the Standard Model: Nathropic tutorial – Dasgupta, P. The Weight of the vacuum – Padmanabhan, T. A Primer – Wells, James et al.
Optimal prior for Bayesian inference in a constrained parameter space – Hannestad, Steen et al. Higgs and superparticle mass predictions from the landscape – Baer, Howard et al. Ignoring the hierarchy problem – Romanino, A.
Gaugino mass in heavy sfermion scenario – Harigaya, Keisuke arXiv: Fast optimization algorithms and the cosmological constant – Bao, Ning et al. Is String Phenomenology an Oxymoron? Cosmology – Rubakov, V.
Phys. Rev. Lett. 59, () – Anthropic Bound on the Cosmological Constant
A small weak scale from a small cosmological constant – Arvanitaki, Asimina et al. Gravity beyond General Relativity: Scripta 92 no.
Toward de Sitter space from ten dimensions – Moritz, Jakob et al. Classical and Quantum Cosmology – Calcagni, Gianluca. Natural split mechanism for sfermions: Manifestations of dark matter and variations of fundamental constants in atoms and astrophysical phenomena aanthropic Stadnik, Y. Please direct questions, comments or concerns to feedback inspirehep. What does the future of our Universe hold?
The F-theory geometry with most flux vacua – Taylor, Washington et al. A brief history of the multiverse – Linde, Andrei Rept. Cosmology and fundamental physics with the Euclid satellite – Amendola, Luca et al. Physics on edge – Ellis, George Inference 3 no. Why the measured cosmological constant is small – Rostami, T.
Cosmological constant, quantum cosmology and anthropic principle – Linde, Andrei D. Cosmological tests of an axiverse-inspired quintessence field – Emami, Razieh et al. Topics in particle physics beyond the standard model – Feldstein, Brian Stephen.
The Higgs mass and natural supersymmetric spectrum from the landscape – Baer, Xnthropic et al. Dynamical supersymmetry breaking and late-time R symmetry breaking as the origin of cosmic thr – Schmitz, Kai et al.
An effective description of dark matter and dark energy in the mildly non-linear regime – Lewandowski, Matthew et al. Testing anthropic reasoning for the cosmological constant with a realistic galaxy formation model – Sudoh, Takahiro et al. The landscape, the swampland and the cosmologlcal of precision cosmology – Akrami, Yashar et al. One hundred years of the cosmological constant: Multiple-axion framework – Bachlechner, Thomas C.