Results 261 to 270 of about 3,102,022 (309)
Global Geo-Pharmacogenomics: Environmental Mutational Signatures Drive Population-Level Heterogeneity in Anticancer Drug Response. [PDF]
Jawahar J, James S.
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Machine learning unlocks robust convergence for chemical process simulations
Jakobs D +2 more
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Physical Review Letters, 1985
Results of numerical simulations of the evolution of a network of interacting cosmic strings in an expanding universe are presented and compared with a simple model. The results lend weight to earlier speculations about the evolution of cosmic strings.
, Albrecht, , Turok
exaly +3 more sources
Results of numerical simulations of the evolution of a network of interacting cosmic strings in an expanding universe are presented and compared with a simple model. The results lend weight to earlier speculations about the evolution of cosmic strings.
, Albrecht, , Turok
exaly +3 more sources
Publications of the Astronomical Society of the Pacific, 2001
Conference was held in Paris, France, in 2000 November. Proceedings will be edited by Roger Ferlet, Martin Lemoine, and Elisabeth Vangioni-Flam and published by World Scientific.
Elisabeth Vangioni-Flam +2 more
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Conference was held in Paris, France, in 2000 November. Proceedings will be edited by Roger Ferlet, Martin Lemoine, and Elisabeth Vangioni-Flam and published by World Scientific.
Elisabeth Vangioni-Flam +2 more
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Physical Review D, 1987
The cosmological evolution of three-dimensional networks of monopoles connected by strings is studied both numerically and analytically. We find that the networks evolve in a self-similar fashion. Monopoles and antimonopoles annihilate, creating larger and larger gaps in the network, so that the typical scale of the network grows proportionally to time.
, Vachaspati, , Vilenkin
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The cosmological evolution of three-dimensional networks of monopoles connected by strings is studied both numerically and analytically. We find that the networks evolve in a self-similar fashion. Monopoles and antimonopoles annihilate, creating larger and larger gaps in the network, so that the typical scale of the network grows proportionally to time.
, Vachaspati, , Vilenkin
openaire +2 more sources
Physical Review Letters, 1989
We summarize the results of high-resolution simulations of cosmic-string evolution in an expanding universe. The string network is found to relax to a scaling solution in accordance with Kibble's one-scale model.'' However, the long strings are found to have significant structure on scales much smaller than the scale length of the long-string network ...
, Bennett, , Bouchet
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We summarize the results of high-resolution simulations of cosmic-string evolution in an expanding universe. The string network is found to relax to a scaling solution in accordance with Kibble's one-scale model.'' However, the long strings are found to have significant structure on scales much smaller than the scale length of the long-string network ...
, Bennett, , Bouchet
openaire +2 more sources
The dynamics of cosmic evolution: Insights from bouncing cosmology
Physics of the Dark UniverseThe primary aim of this work is to explore feasible bouncing cosmological solutions in the framework of $f(\mathcal{Q}, \mathcal{C})$ gravity, where $\mathcal{Q}$ denotes non-metricity and $\mathcal{C}$ indicates the boundary term.
M. Sharif, M. Gul, Ahmad Nawaz
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Tracing cosmic evolution through Weyl-Type
We investigate the cosmic evolution of the Universe across different cosmological epochs in exponential Weyl-type $f(Q, T)$ gravity model. The theoretical analysis involves a detailed dynamical system approach, where we define dimensionless variables and
Rahul Bhagat +2 more
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Raychaudhuri equation and the dynamics of cosmic evolution
Physica ScriptaThe paper deals with the Raychaudhuri equation (RE) which is a non-linear ordinary differential equation in Θ, the expansion scalar corresponding to a geodesic flow.
Madhukrishna Chakraborty, S. Chakraborty
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