Particle Creation by Black Holes by Stephen Hawking

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Particle Creation by Black Holes[edit | edit source]

What's this about?[edit | edit source]

This paper by physicist Stephen Hawking discusses how black holes can create and emit particles, acting like hot bodies with a temperature.

Black Holes Should Only Absorb[edit | edit source]

Classically, black holes can only absorb particles, not emit them. But quantum effects could cause emission.

Black Hole Temperature[edit | edit source]

Hawking showed that black holes emit particles like a body with temperature T proportional to the surface gravity K of the black hole. For a solar mass black hole, T is tiny.

Quantum Particles Near Horizon[edit | edit source]

Virtual particle pairs exist near the event horizon. A negative energy particle can tunnel inside, becoming real. The positive energy particle escapes as radiation.

Emission Causes Black Holes to Shrink[edit | edit source]

This emission causes black holes to slowly shrink over billions of years. Tiny primordial black holes would have evaporated by now.

As Mass Decreases, Emission Speeds Up[edit | edit source]

As black holes shrink, they get hotter and emit faster. This can cause explosions releasing huge energy.

Area Decreasing Violates Classical Laws[edit | edit source]

Classically, a black hole's area can't decrease. But the emission violates this, implying negative energy flow across horizon.

Quantum Fluctuations Cause Uncertainty[edit | edit source]

The area decrease is due to quantum uncertainty in the horizon position, not observable negative energy.

Emission Matches Thermal Temperature[edit | edit source]

Hawking showed the emission matches a thermal spectrum at temperature T, supporting thermodynamic links between T, entropy, and surface gravity.

Angular Momentum and Charge[edit | edit source]

Rotation and charge affect T. Emission carries away angular momentum and charge. Superradiance causes enhanced emission for some modes.

Back Reaction On the Metric[edit | edit source]

The emission causes the black hole to evolve, not remain stationary. But the approximation works until the black hole becomes very small.

Conclusion[edit | edit source]

Quantum particle emission causes black holes to eventually evaporate away due to an underlying thermodynamic relationship between temperature, entropy, and surface gravity.

Key References[edit | edit source]

   Hawking, Nature 248, 30 (1974)
   Hawking, Communications in Mathematical Physics 43, 199 (1975)
   Bekenstein, Physical Review D 7, 2333 (1973)

See original paper for full details and references.

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