2,858 research outputs found
Stephen Hawking (1942-2018), Towards a Complete Understanding of the Universe
Two of the major achievements of Stephen Hawking are described in elementary
terms. They are his work on the beginning of the universe and his work on the
end of black holes. These are perhaps the scientific achievements for which he
is best known. Some of the qualities that enabled his great achievements are
also described. The article is a slightly edited version of one solicited by
the Proceedings of the (US) National Academy of Sciences for their
Retrospectives section and will appear there.Comment: 4 page
Quantum Pasts and the Utility of History
From data in the present we can predict the future and retrodict the past.
These predictions and retrodictions are for histories -- most simply time
sequences of events. Quantum mechanics gives probabilities for individual
histories in a decoherent set of alternative histories. This paper discusses
several issues connected with the distinction between prediction and
retrodiction in quantum cosmology: the difference between classical and quantum
retrodiction, the permanence of the past, why we predict the future but
remember the past, the nature and utility of reconstructing the past(s), and
information theoretic measures of the utility of history. (Talk presented at
the Nobel Symposium: Modern Studies of Basic Quantum Concepts and Phenomena,
Gimo, Sweden, June 13-17, 1997)Comment: 22pages, uses REVTEX 3.
The Quantum Mechanical Arrows of Time
The familiar textbook quantum mechanics of laboratory measurements
incorporates a quantum mechanical arrow of time --- the direction in time in
which state vector reduction operates. This arrow is usually assumed to
coincide with the direction of the thermodynamic arrow of the quasiclassical
realm of everyday experience. But in the more general context of cosmology we
seek an explanation of all observed arrows, and the relations between them, in
terms of the conditions that specify our particular universe. This paper
investigates quantum mechanical and thermodynamic arrows in a time-neutral
formulation of quantum mechanics for a number of model cosmologies in fixed
background spacetimes. We find that a general universe may not have well
defined arrows of either kind. When arrows are emergent they need not point in
the same direction over the whole of spacetime. Rather they may be local,
pointing in different directions in different spacetime regions. Local arrows
can therefore be consistent with global time symmetry.Comment: 9 pages, 4 figures, revtex4, typos correcte
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