Mining the quantum vacuum: quantum tunnelling and particle creation
Particle production from the vacuum is a remarkable aspect of particle physics. Prime examples are the Schwinger process of particle production in strong electric fields and the Hawking process of particle production from black holes. These processes can be viewed as quantum tunnelling of particles...
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| creator | Moss, Ian G Stasiak, Piotr Z |
| description | Particle production from the vacuum is a remarkable aspect of particle
physics. Prime examples are the Schwinger process of particle production in
strong electric fields and the Hawking process of particle production from
black holes. These processes can be viewed as quantum tunnelling of particles
from the vacuum. The tunnelling approach, and the closely related instanton or
complex path approaches, are reviewed here with emphasis on paths in the
complex coordinate plane. The method is applied to particle production from a
black hole in a magnetic field, where ultra-high energy charged particles are
produced. |
| doi_str_mv | 10.48550/arxiv.2303.01119 |
| format | Article |
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physics. Prime examples are the Schwinger process of particle production in
strong electric fields and the Hawking process of particle production from
black holes. These processes can be viewed as quantum tunnelling of particles
from the vacuum. The tunnelling approach, and the closely related instanton or
complex path approaches, are reviewed here with emphasis on paths in the
complex coordinate plane. The method is applied to particle production from a
black hole in a magnetic field, where ultra-high energy charged particles are
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physics. Prime examples are the Schwinger process of particle production in
strong electric fields and the Hawking process of particle production from
black holes. These processes can be viewed as quantum tunnelling of particles
from the vacuum. The tunnelling approach, and the closely related instanton or
complex path approaches, are reviewed here with emphasis on paths in the
complex coordinate plane. The method is applied to particle production from a
black hole in a magnetic field, where ultra-high energy charged particles are
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physics. Prime examples are the Schwinger process of particle production in
strong electric fields and the Hawking process of particle production from
black holes. These processes can be viewed as quantum tunnelling of particles
from the vacuum. The tunnelling approach, and the closely related instanton or
complex path approaches, are reviewed here with emphasis on paths in the
complex coordinate plane. The method is applied to particle production from a
black hole in a magnetic field, where ultra-high energy charged particles are
produced.</abstract><doi>10.48550/arxiv.2303.01119</doi><oa>free_for_read</oa></addata></record> |
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| subjects | Physics - High Energy Physics - Theory |
| title | Mining the quantum vacuum: quantum tunnelling and particle creation |
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