Dyson’s formula
E284667
Dyson’s formula is a key expression in quantum field theory that provides the perturbative expansion of time-ordered exponentials, forming the basis of the Dyson series used to compute interaction effects.
All labels observed (1)
| Label | Occurrences |
|---|---|
| Dyson’s formula canonical | 1 |
How this entity was disambiguated
This entity first appeared as the object of triple T2631114 — resolving that mention is where its identity was fixed. The disambiguator weighed these candidate entities and picked the highlighted one (or “None”, minting a new entity). This is how homonymy is resolved: the same surface form can point to different entities.
Target entity: Dyson’s formula Context triple: [Gell-Mann–Low theorem, relatedTo, Dyson’s formula]
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A.
Feynman–Kac formula
The Feynman–Kac formula is a fundamental result connecting solutions of certain partial differential equations with expectations over stochastic processes, forming a bridge between quantum mechanics, probability theory, and mathematical finance.
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B.
Dynkin formula
Dynkin formula is a fundamental result in the theory of Markov processes that expresses the expected value of a function of the process at a stopping time in terms of its generator and an integral over time.
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C.
Dyson’s transform in number theory
Dyson’s transform in number theory is a combinatorial technique introduced by Freeman Dyson to manipulate and relate integer partitions, particularly in the study of partition identities and congruences.
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D.
Kubo formula
The Kubo formula is a fundamental result in linear response theory that expresses transport coefficients and response functions in terms of equilibrium correlation functions in statistical mechanics and quantum many-body physics.
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E.
Chapman–Kolmogorov equation
The Chapman–Kolmogorov equation is a fundamental relation in the theory of stochastic processes that expresses how transition probabilities of a Markov process over longer time intervals can be obtained by integrating over intermediate states.
- F. None of above. chosen
- G. Unsure - the case is ambiguous/there is not enough information to decide.
Target entity: Dyson’s formula Target entity description: Dyson’s formula is a key expression in quantum field theory that provides the perturbative expansion of time-ordered exponentials, forming the basis of the Dyson series used to compute interaction effects.
-
A.
Feynman–Kac formula
The Feynman–Kac formula is a fundamental result connecting solutions of certain partial differential equations with expectations over stochastic processes, forming a bridge between quantum mechanics, probability theory, and mathematical finance.
-
B.
Dynkin formula
Dynkin formula is a fundamental result in the theory of Markov processes that expresses the expected value of a function of the process at a stopping time in terms of its generator and an integral over time.
-
C.
Dyson’s transform in number theory
Dyson’s transform in number theory is a combinatorial technique introduced by Freeman Dyson to manipulate and relate integer partitions, particularly in the study of partition identities and congruences.
-
D.
Kubo formula
The Kubo formula is a fundamental result in linear response theory that expresses transport coefficients and response functions in terms of equilibrium correlation functions in statistical mechanics and quantum many-body physics.
-
E.
Chapman–Kolmogorov equation
The Chapman–Kolmogorov equation is a fundamental relation in the theory of stochastic processes that expresses how transition probabilities of a Markov process over longer time intervals can be obtained by integrating over intermediate states.
- F. None of above. chosen
Statements (31)
| Predicate | Object |
|---|---|
| instanceOf |
mathematical formula
ⓘ
result in quantum field theory ⓘ |
| appliesTo | time-ordered exponentials of interaction Hamiltonians ⓘ |
| assumes |
existence of an interaction picture
ⓘ
time-dependent interaction Hamiltonian ⓘ |
| componentOf | standard formalism of perturbative quantum field theory ⓘ |
| describes | perturbative expansion of time-ordered exponentials ⓘ |
| field |
quantum field theory
ⓘ
theoretical physics ⓘ |
| generalizes | exponential of a time-dependent operator with non-commuting values ⓘ |
| historicalContext | introduced in the mid-20th century ⓘ |
| implies | series expansion in powers of the coupling constant ⓘ |
| involves |
interaction Hamiltonian density
ⓘ
time-ordered integrals over interaction times ⓘ time-ordering operator ⓘ |
| mathematicalForm | time-ordered exponential expressed as a time-ordered series of integrals ⓘ |
| namedAfter | Freeman Dyson ⓘ |
| provides | basis of the Dyson series ⓘ |
| relatesTo |
Feynman diagrams
ⓘ
S-matrix expansion ⓘ interaction picture ⓘ perturbation theory in quantum field theory ⓘ time-evolution operator ⓘ time-ordered products of operators ⓘ |
| usedBy |
particle physicists
ⓘ
quantum field theorists ⓘ |
| usedFor |
computing interaction effects in quantum field theory
ⓘ
expanding time-evolution operator in the interaction picture ⓘ |
| usedIn |
construction of Dyson series
ⓘ
covariant perturbation theory ⓘ derivation of perturbative S-matrix elements ⓘ |
How these facts were elicited
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Subject: Dyson’s formula Description of subject: Dyson’s formula is a key expression in quantum field theory that provides the perturbative expansion of time-ordered exponentials, forming the basis of the Dyson series used to compute interaction effects.
Referenced by (1)
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