SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W4313265370> ?p ?o ?g. }

Showing items 1 to 100 of ±196 with 100 items per page.

W4313265370 endingPage "3090" @default.
W4313265370 startingPage "3076" @default.
W4313265370 abstract "In the present-day universe, magnetic fields play such essential roles in star formation as angular momentum transport and outflow driving, which control circumstellar disc formation/fragmentation and also the star formation efficiency. While only a much weaker field has been believed to exist in the early universe, recent theoretical studies find that strong fields can be generated by turbulent dynamo during the gravitational collapse. Here, we investigate the gravitational collapse of a cloud core ($sim 10^{3} rm cm^{-3}$) up to protostar formation ($sim 10^{20} rm cm^{-3}$) by non-ideal magnetohydrodynamics (MHD) simulations considering ambipolar diffusion (AD), the dominant non-ideal effects in the primordial-gas. We systematically study rotating cloud cores either with or without turbulence and permeated with uniform fields of different strengths. We find that AD can slightly suppress the field growth by dynamo especially on scales smaller than the Jeans-scale at the density range $10^{10}-10^{14} rm cm^{-3}$, while we could not see the AD effect on the temperature evolution, since the AD heating rate is always smaller than compression heating. The inefficiency of AD makes the field as strong as $10^{3}-10^{5} rm G$ near the formed protostar, much stronger than in the present-day cases, even in cases with initially weak fields. The magnetic field affects the inflow motion when amplified to the equipartition level with turbulence on the Jeans-scale, although disturbed fields do not launch winds. This might suggest that dynamo amplified fields have smaller impact on the dynamics in the later accretion phase than other processes such as ionisation feedback." @default.
W4313265370 created "2023-01-06" @default.
W4313265370 creator A5026969609 @default.
W4313265370 creator A5027187535 @default.
W4313265370 creator A5043808659 @default.
W4313265370 creator A5050782656 @default.
W4313265370 creator A5066500271 @default.
W4313265370 date "2022-12-20" @default.
W4313265370 modified "2023-10-15" @default.
W4313265370 title "Non-ideal magnetohydrodynamic simulations of the first star formation: the effect of ambipolar diffusion" @default.
W4313265370 cites W1526591996 @default.
W4313265370 cites W1965282549 @default.
W4313265370 cites W1966244186 @default.
W4313265370 cites W1968137411 @default.
W4313265370 cites W1968777507 @default.
W4313265370 cites W1978253505 @default.
W4313265370 cites W1988574583 @default.
W4313265370 cites W1989528790 @default.
W4313265370 cites W1990430728 @default.
W4313265370 cites W1999579345 @default.
W4313265370 cites W2010195718 @default.
W4313265370 cites W2010356053 @default.
W4313265370 cites W2013458015 @default.
W4313265370 cites W2016057237 @default.
W4313265370 cites W2019482055 @default.
W4313265370 cites W2023001659 @default.
W4313265370 cites W2023433395 @default.
W4313265370 cites W2027544184 @default.
W4313265370 cites W2029532720 @default.
W4313265370 cites W2031278158 @default.
W4313265370 cites W2033039083 @default.
W4313265370 cites W2036674925 @default.
W4313265370 cites W2040912209 @default.
W4313265370 cites W2043553830 @default.
W4313265370 cites W2050408580 @default.
W4313265370 cites W2051974748 @default.
W4313265370 cites W2052672604 @default.
W4313265370 cites W2056427085 @default.
W4313265370 cites W2060961770 @default.
W4313265370 cites W2061137193 @default.
W4313265370 cites W2062327870 @default.
W4313265370 cites W2062568013 @default.
W4313265370 cites W2062744536 @default.
W4313265370 cites W2064465087 @default.
W4313265370 cites W2066341397 @default.
W4313265370 cites W2066365154 @default.
W4313265370 cites W2073753053 @default.
W4313265370 cites W2079349557 @default.
W4313265370 cites W2080161690 @default.
W4313265370 cites W2087374963 @default.
W4313265370 cites W2088668851 @default.
W4313265370 cites W2094572710 @default.
W4313265370 cites W2100663598 @default.
W4313265370 cites W2110939566 @default.
W4313265370 cites W2112193777 @default.
W4313265370 cites W2114351830 @default.
W4313265370 cites W2140534813 @default.
W4313265370 cites W2144090133 @default.
W4313265370 cites W2148047497 @default.
W4313265370 cites W2150598036 @default.
W4313265370 cites W2151827707 @default.
W4313265370 cites W2152043060 @default.
W4313265370 cites W2156621121 @default.
W4313265370 cites W2159402535 @default.
W4313265370 cites W2164318739 @default.
W4313265370 cites W2168955357 @default.
W4313265370 cites W2249829899 @default.
W4313265370 cites W2252795400 @default.
W4313265370 cites W2273162872 @default.
W4313265370 cites W2298546845 @default.
W4313265370 cites W2329237991 @default.
W4313265370 cites W2686476852 @default.
W4313265370 cites W2914300893 @default.
W4313265370 cites W2920910412 @default.
W4313265370 cites W2937563138 @default.
W4313265370 cites W2937953699 @default.
W4313265370 cites W3004544041 @default.
W4313265370 cites W3008431859 @default.
W4313265370 cites W3040680449 @default.
W4313265370 cites W3041331278 @default.
W4313265370 cites W3045411735 @default.
W4313265370 cites W3092440390 @default.
W4313265370 cites W3097989847 @default.
W4313265370 cites W3098023104 @default.
W4313265370 cites W3098355739 @default.
W4313265370 cites W3098576504 @default.
W4313265370 cites W3098579036 @default.
W4313265370 cites W3099280424 @default.
W4313265370 cites W3099510442 @default.
W4313265370 cites W3100244462 @default.
W4313265370 cites W3100492127 @default.
W4313265370 cites W3100972585 @default.
W4313265370 cites W3101255717 @default.
W4313265370 cites W3101431316 @default.
W4313265370 cites W3101587187 @default.
W4313265370 cites W3101606492 @default.
W4313265370 cites W3101772403 @default.
W4313265370 cites W3102341133 @default.