Bogoliubov transformation
In theoretical physics, the Bogoliubov transformation, also known as the Bogoliubov–Valatin transformation, was independently developed in 1958 by Nikolay Bogolyubov and for finding solutions of BCS theory in a homogeneous system. The Bogoliubov transformation is an isomorphism of either the canonical commutation relation algebra or canonical anticommutation relation algebra. This induces an autoequivalence on the respective representations. The Bogoliubov transformation is often used to diagonalize Hamiltonians, which yields the stationary solutions of the corresponding Schrödinger equation. The Bogoliubov transformation is also important for understanding the Unruh effect, Hawking radiation, pairing effects in nuclear physics, and many other topics.
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BCS theoryBeam splitterBogolibov transformationBogoliubov-Valatin transformationBogoliubov transformationsBogolyubov transformationCCR and CAR algebrasCreation and annihilation operatorsDirac equationDirac seaFoldy–Wouthuysen transformationHFBHartree–Fock methodIndex of physics articles (B)Jan Philip SolovejLeonard ParkerList of scientific laws named after peopleLuttinger liquidMADNESSNegative energyNikolay BogolyubovSadhan BasuSqueezed coherent stateSymplectic matrixThermal quantum field theoryUnruh effect
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Bogoliubov transformation
In theoretical physics, the Bogoliubov transformation, also known as the Bogoliubov–Valatin transformation, was independently developed in 1958 by Nikolay Bogolyubov and for finding solutions of BCS theory in a homogeneous system. The Bogoliubov transformation is an isomorphism of either the canonical commutation relation algebra or canonical anticommutation relation algebra. This induces an autoequivalence on the respective representations. The Bogoliubov transformation is often used to diagonalize Hamiltonians, which yields the stationary solutions of the corresponding Schrödinger equation. The Bogoliubov transformation is also important for understanding the Unruh effect, Hawking radiation, pairing effects in nuclear physics, and many other topics.
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En física teórica, la transfor ...... nuclear y muchos otros temas.
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In fisica teorica, la trasform ...... anto sono gli stessi di prima.
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In theoretical physics, the Bo ...... n thus are the same as before.
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В теоретической физике преобра ...... в спаривания в ядерной физике.
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Перетворення Боголюбова — уніт ...... а використати для інших цілей.
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理論物理学においてボゴリューボフ変換(ボゴリューボフへんかん ...... キング輻射や他の多くのトピックスを理解する上でも重要である。
@ja
물리학에서, 보골류보프 변환(Bogoliubov transformation)은 서로 다른 두 정준 (반)교환 대수 사이를 연관짓는 변환이다.
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En física teórica, la transfor ...... nuclear y muchos otros temas.
@es
In fisica teorica, la trasform ...... a nucleare, e altri argomenti.
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In theoretical physics, the Bo ...... hysics, and many other topics.
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В теоретической физике преобра ...... в спаривания в ядерной физике.
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Перетворення Боголюбова — уніт ...... оді при виконанні умови , = 1.
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理論物理学においてボゴリューボフ変換(ボゴリューボフへんかん ...... キング輻射や他の多くのトピックスを理解する上でも重要である。
@ja
물리학에서, 보골류보프 변환(Bogoliubov transformation)은 서로 다른 두 정준 (반)교환 대수 사이를 연관짓는 변환이다.
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Bogoliubov transformation
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Transformación de Bogoliubov
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Trasformazione di Bogoljubov
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Перетворення Боголюбова
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Преобразование Боголюбова
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ボゴリューボフ変換
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보골류보프 변환
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