Proceedings of the International School of Physics "Enrico Fermi.", Volume 65N. Zanichelli, 1978 - Nuclear physics |
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Page 124
symmetry of optical curves argues against alternatives such as a 35d relaxation
process which might involve changing mass transfer or accretion rates , changing
accretion disk dimensions ( and hot spot position ) , and consequently a system ...
symmetry of optical curves argues against alternatives such as a 35d relaxation
process which might involve changing mass transfer or accretion rates , changing
accretion disk dimensions ( and hot spot position ) , and consequently a system ...
Page 418
The thermal relaxation time is Uns ( 25 ) Trelas ~ xora / c , where x is the effective
opacity due to conduction , c the velocity of light ( the electrons are relativistic )
and r the linear dimension of the region of interest . For thermal relaxation in 10 ...
The thermal relaxation time is Uns ( 25 ) Trelas ~ xora / c , where x is the effective
opacity due to conduction , c the velocity of light ( the electrons are relativistic )
and r the linear dimension of the region of interest . For thermal relaxation in 10 ...
Page 522
At first order in the external electric field E , we can write ( E 2 ) f = to + e Et ,
where t is the relaxation time , defined as ( E . 3 ) t + = ( P = P ) wip , p ' ) . This
characterizes the change of momentum from p to p ' that the electron suffers due
to the ...
At first order in the external electric field E , we can write ( E 2 ) f = to + e Et ,
where t is the relaxation time , defined as ( E . 3 ) t + = ( P = P ) wip , p ' ) . This
characterizes the change of momentum from p to p ' that the electron suffers due
to the ...
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Contents
Gruppo fotografico del partecipanti al Corso | 1 |
Introduction | 17 |
Сen | 37 |
Copyright | |
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absorption accretion amplitude analysis angular approximation assumed Astrophys binary black hole calculations charge considered convective core corresponding cycle density dependence detailed detectors determined dips discussed disk distance eclipse effect electromagnetic electron emission energy equation estimate evolution existence expected field Figure flux frequency function geometry give given gravitational important increase indicated intensity interesting Journ less Lett light curve limit lines magnetic mass mean measurements motion Nature neutrino neutron star observed obtained occur optical orbital parameters particle period phase Phys position possible potential present primary pulsations radiation radio range ratio region relation relative rotating scale sensitivity shell shown shows solutions spectrum stellar stellar wind structure suggested surface temperature values variable variations velocity X-ray sources