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English · JMdictphysics gauge theory
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Español · Wikipedia
En física, una teoría de campo gauge (o teoría de gauge o teoría de "recalibración") es un tipo de teoría cuántica de campos que se basa en el hecho de que la interacción entre fermiones puede ser vista como el resultado de introducir transformaciones "locales" pertenecientes al grupo de simetría interna en el que se base la teoría gauge. Las teorías de gauge se discuten generalmente en el lenguaje matemático de la geometría diferencial e involucran el uso de transformaciones de gauge. Una transformación de gauge es una transformación de algún grado de libertad interno, que no modifica ninguna propiedad observable física. Un campo gauge es un campo de Yang-Mills asociado a las transformaciones de gauge asociadas a la teoría y que describe la interacción física entre diferentes campos fermiónicos. Por ejemplo el campo electromagnético es un campo de gauge que describe el modo de interactuar de fermiones dotados con carga eléctrica.
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English · Wikipedia
In physics, a gauge theory is a type of field theory in which the Lagrangian is invariant under a continuous group of local transformations. The term gauge refers to redundant degrees of freedom in the Lagrangian. The transformations between possible gauges, called gauge transformations, form a Lie group—referred to as the symmetry group or the gauge group of the theory. Associated with any Lie group is the Lie algebra of group generators. For each group generator there necessarily arises a corresponding field (usually a vector field) called the gauge field. Gauge fields are included in the Lagrangian to ensure its invariance under the local group transformations (called gauge invariance). When such a theory is quantized, the quanta of the gauge fields are called gauge bosons. If the symmetry group is non-commutative, the gauge theory is referred to as non-abelian, the usual example being the Yang–Mills theory. Many powerful theories in physics are described by Lagrangians that are invariant under some symmetry transformation groups. When they are invariant under a transformation identically performed at every point in the spacetime in which the physical processes occur, they are said to have a global symmetry. Local symmetry, the cornerstone of gauge theories, is a stricter constraint. In fact, a global symmetry is just a local symmetry whose group's parameters are fixed in spacetime. Gauge theories are important as the successful field theories explaining the dynamics of elementary particles. Quantum electrodynamics is an abelian gauge theory with the symmetry group U(1) and has one gauge field, the electromagnetic four-potential, with the photon being the gauge boson. The Standard Model is a non-abelian gauge theory with the symmetry group U(1)×SU(2)×SU(3) and has a total of twelve gauge bosons: the photon, three weak bosons and eight gluons. Gauge theories are also important in explaining gravitation in the theory of general relativity. Its case is somewhat unique in that the gauge field is a tensor, the Lanczos tensor. Theories of quantum gravity, beginning with gauge gravitation theory, also postulate the existence of a gauge boson known as the graviton. Gauge symmetries can be viewed as analogues of the principle of general covariance of general relativity in which the coordinate system can be chosen freely under arbitrary diffeomorphisms of spacetime. Both gauge invariance and diffeomorphism invariance reflect a redundancy in the description of the system. An alternative theory of gravitation, gauge theory gravity, replaces the principle of general covariance with a true gauge principle with new gauge fields. Historically, these ideas were first stated in the context of classical electromagnetism and later in general relativity. However, the modern importance of gauge symmetries appeared first in the relativistic quantum mechanics of electrons – quantum electrodynamics, elaborated on below. Today, gauge theories are useful in condensed matter, nuclear and high energy physics among other subfields.
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