## Proceedings of the International School of Physics "Enrico Fermi.", Volume 65N. Zanichelli, 1978 - Nuclear physics |

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Page 557

One can convincingly argue from linear theory and from study of the symmetries

and multipole structure that the Kerr

field of a rotating body with angular momentum L = ma ( really L = mac , c = 1 ) ...

One can convincingly argue from linear theory and from study of the symmetries

and multipole structure that the Kerr

**solution**represents the external gravitationalfield of a rotating body with angular momentum L = ma ( really L = mac , c = 1 ) ...

Page 558

It is easiest to find the

the usual Coulomb field about ( 0 , 0 , 0 ) and moving it into the complex , i . e .

begin with ( 20 ) E + iB = ( 1 , y , z ) , r = r2 + y2 + x , and then replace 2 → 2 – ia ...

It is easiest to find the

**solution**to ( 18 ) with ( 19 ) as the source by beginning withthe usual Coulomb field about ( 0 , 0 , 0 ) and moving it into the complex , i . e .

begin with ( 20 ) E + iB = ( 1 , y , z ) , r = r2 + y2 + x , and then replace 2 → 2 – ia ...

Page 808

For the appropriate M and M , the inner portion of the hot - disk

geometrically bloated ( h / r ~ 0 . 1 : 1 ) and requires temperatures of at least ~

1010 K to support itself against gravity . An alternative self - consistent

exists ...

For the appropriate M and M , the inner portion of the hot - disk

**solution**isgeometrically bloated ( h / r ~ 0 . 1 : 1 ) and requires temperatures of at least ~

1010 K to support itself against gravity . An alternative self - consistent

**solution**exists ...

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### Contents

Gruppo fotografico del partecipanti al Corso | 1 |

Introduction | 17 |

Сen | 37 |

Copyright | |

61 other sections not shown

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### Common terms and phrases

accretion amplitude angular antenna approximation assumed Astrophys binary black hole calculations condition considered cooling core corresponding density depends detailed detectors determined dips discussed disk distance eclipse effect electron emission energy equation estimate existence expected field flux frequency function given gives gravitational heating important increase indicated intensity interesting Journ less Lett light curve limit lines luminosity magnetic field mass matter mean measured momentum motion Nature neutrino neutron star object observed obtained occur optical orbital parameters particle period phase photons Phys physical plasma possible potential present pressure problem pulsations radiation radio radius range region relation relative rotating scale sensitivity shown shows solution spectrum stellar stellar wind suggested surface temperature values variable variations velocity X-ray source