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In the study of
Dirac field In quantum field theory, a fermionic field is a quantum field whose Quantum, quanta are fermions; that is, they obey Fermi–Dirac statistics. Fermionic fields obey canonical anticommutation relations rather than the canonical commutation relation ...
s in
quantum field theory In theoretical physics, quantum field theory (QFT) is a theoretical framework that combines Field theory (physics), field theory and the principle of relativity with ideas behind quantum mechanics. QFT is used in particle physics to construct phy ...
,
Richard Feynman Richard Phillips Feynman (; May 11, 1918 – February 15, 1988) was an American theoretical physicist. He is best known for his work in the path integral formulation of quantum mechanics, the theory of quantum electrodynamics, the physics of t ...
introduced the convenient Feynman slash notation (less commonly known as the Dirac slash notation). If ''A'' is a
covariant vector In physics, especially in multilinear algebra and tensor analysis, covariance and contravariance describe how the quantitative description of certain geometric or physical entities changes with a change of basis. Briefly, a contravariant vecto ...
(i.e., a
1-form In differential geometry, a one-form (or covector field) on a differentiable manifold is a differential form of degree one, that is, a smooth section of the cotangent bundle. Equivalently, a one-form on a manifold M is a smooth mapping of the t ...
), : \ \stackrel\ \gamma^0 A_0 + \gamma^1 A_1 + \gamma^2 A_2 + \gamma^3 A_3 where ''γ'' are the
gamma matrices In mathematical physics, the gamma matrices, \ \left\\ , also called the Dirac matrices, are a set of conventional matrices with specific anticommutation relations that ensure they generate a matrix representation of the Clifford algebra \ \mathr ...
. Using the Einstein summation notation, the expression is simply : \ \stackrel\ \gamma^\mu A_\mu.


Identities

Using the
anticommutator In mathematics, the commutator gives an indication of the extent to which a certain binary operation fails to be commutative. There are different definitions used in group theory and ring theory. Group theory The commutator of two elements, ...
s of the gamma matrices, one can show that for any a_\mu and b_\mu, :\begin = a^\mu a_\mu \cdot I_4 = a^2 \cdot I_4 \\ + = 2 a \cdot b \cdot I_4. \end where I_4 is the identity matrix in four dimensions. In particular, :^2 = \partial^2 \cdot I_4. Further identities can be read off directly from the gamma matrix identities by replacing the
metric tensor In the mathematical field of differential geometry, a metric tensor (or simply metric) is an additional structure on a manifold (such as a surface) that allows defining distances and angles, just as the inner product on a Euclidean space allows ...
with
inner product In mathematics, an inner product space (or, rarely, a Hausdorff pre-Hilbert space) is a real vector space or a complex vector space with an operation called an inner product. The inner product of two vectors in the space is a scalar, ofte ...
s. For example, :\begin \gamma_\mu \gamma^\mu &= -2 \\ \gamma_\mu \gamma^\mu &= 4 a \cdot b \cdot I_4 \\ \gamma_\mu \gamma^\mu &= -2 \\ \gamma_\mu \gamma^\mu &= 2( + ) \\ \operatorname() &= 4 a \cdot b \\ \operatorname() &= 4 \left a \cdot b)(c \cdot d) - (a \cdot c)(b \cdot d) + (a \cdot d)(b \cdot c) \right\\ \operatorname() &= 4 \left ^\mu b^\nu + a^\nu b^\mu - \eta^(a \cdot b) \right\\ \operatorname(\gamma_5 ) &= 4 i \varepsilon_ a^\mu b^\nu c^\lambda d^\sigma \\ \operatorname() &= 0 \\ \operatorname() &= 0 \\ \operatorname((+m)(+m)) &= 8a^0b^0-4(a \cdot b)+4m^2 \\ \operatorname((+m)(+m)) &= 4 \left ^\mu b^\nu+a^\nu b^\mu - \eta^((a \cdot b)-m^2) \right\\ \operatorname(_1..._) &= \operatorname(_..._1) \\ \operatorname(_1..._) &= 0 \end where: *\varepsilon_ is the
Levi-Civita symbol In mathematics, particularly in linear algebra, tensor analysis, and differential geometry, the Levi-Civita symbol or Levi-Civita epsilon represents a collection of numbers defined from the sign of a permutation of the natural numbers , for some ...
*\eta^ is the
Minkowski metric In physics, Minkowski space (or Minkowski spacetime) () is the main mathematical description of spacetime in the absence of general_relativity, gravitation. It combines inertial space and time manifolds into a four-dimensional model. The model ...
*m is a scalar.


With four-momentum

This section uses the
metric signature In mathematics, the signature of a metric tensor ''g'' (or equivalently, a real quadratic form thought of as a real symmetric bilinear form on a finite-dimensional vector space) is the number (counted with multiplicity) of positive, negative and z ...
. Often, when using the
Dirac equation In particle physics, the Dirac equation is a relativistic wave equation derived by British physicist Paul Dirac in 1928. In its free form, or including electromagnetic interactions, it describes all spin-1/2 massive particles, called "Dirac ...
and solving for cross sections, one finds the slash notation used on
four-momentum In special relativity, four-momentum (also called momentum–energy or momenergy) is the generalization of the classical three-dimensional momentum to four-dimensional spacetime. Momentum is a vector in three dimensions; similarly four-momentum i ...
: using the
Dirac basis In mathematical physics, the gamma matrices, \ \left\\ , also called the Dirac matrices, are a set of conventional matrices with specific anticommutation relations that ensure they generate a matrix representation of the Clifford algebra \ \mathr ...
for the gamma matrices, :\gamma^0 = \begin I & 0 \\ 0 & -I \end,\quad \gamma^i = \begin 0 & \sigma^i \\ -\sigma^i & 0 \end \, as well as the definition of contravariant four-momentum in
natural units In physics, natural unit systems are measurement systems for which selected physical constants have been set to 1 through nondimensionalization of physical units. For example, the speed of light may be set to 1, and it may then be omitted, equa ...
, : p^\mu = \left(E, p_x, p_y, p_z \right) \, we see explicitly that :\begin &= \gamma^\mu p_\mu = \gamma^0 p^0 - \gamma^i p^i \\ &= \begin p^0 & 0 \\ 0 & -p^0 \end - \begin 0 & \sigma^i p^i \\ -\sigma^i p^i & 0 \end \\ &= \begin E & -\vec \cdot \vec \\ \vec \cdot \vec & -E \end. \end Similar results hold in other bases, such as the
Weyl basis In mathematical physics, the gamma matrices, \ \left\\ , also called the Dirac matrices, are a set of conventional matrices with specific commutation relation, anticommutation relations that ensure they generating set, generate a matrix representat ...
.


See also

*
Weyl basis In mathematical physics, the gamma matrices, \ \left\\ , also called the Dirac matrices, are a set of conventional matrices with specific commutation relation, anticommutation relations that ensure they generating set, generate a matrix representat ...
*
Gamma matrices In mathematical physics, the gamma matrices, \ \left\\ , also called the Dirac matrices, are a set of conventional matrices with specific anticommutation relations that ensure they generate a matrix representation of the Clifford algebra \ \mathr ...
*
Four-vector In special relativity, a four-vector (or 4-vector, sometimes Lorentz vector) is an object with four components, which transform in a specific way under Lorentz transformations. Specifically, a four-vector is an element of a four-dimensional vect ...
*
S-matrix In physics, the ''S''-matrix or scattering matrix is a Matrix (mathematics), matrix that relates the initial state and the final state of a physical system undergoing a scattering, scattering process. It is used in quantum mechanics, scattering ...


References

* Quantum field theory Spinors Richard Feynman de:Dirac-Matrizen#Feynman-Slash-Notation {{quantum-stub