Download/Embed scientific diagram | 2: La derivada covariante. from publication: Geometría riemanniana / H. Sánchez Morgado, O. Palmas Velasco. Derivada covariante. Propiedades de la derivada covariante. Ejemplos de cálculo de derivadas covariantes. transporte paralelo de vectores y tensores. Convolution Derivada Convolution de dos funciones. Convolution of two functions Upper density Derivada covariante. Covariant derivative Derivada de orden.
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Este produto, no caso do plano euclidiano e do plano de Bieliavsky, coincide com produto de Weyl integral e o produto de Bieliavsky, respectivamente.
Derivada covariante – Wikipédia, a enciclopédia livre
This same procedure, in the euclidian plane case, also produces the integral Weyl product. This rights cover cofariante whole data about this document as well as its contents.
The geometric quantization is a method developed to provide a geometrical construction relating classical to quantum mechanics.
One wants to consider sections which are constant in certain directions polarized sections and for that one needs to introduce the concept of a polarization. To get a Hilbert space structure on the polarized sections, one needs to consider objects known as half densities.
File:Parallel – Wikimedia Commons
Geometric construction of “star-product” integral on symplectic symmetric spaces not compact. Any uses or copies of this document in whole or in part must include the author’s name.
Learn what derived works are clicking here. In this work, first we consider a sesquilinear pairing between objects associated to certain different polarizations, which are nontransverse real polarizations, to obtain integral applications between their associated Hilbert spaces, and to use the convolution of the pair groupoid M x ‘ M BARRA’ to obtain deirvada integral product of functions on M.
On the other hand, for the hyperbolic plane, such real polarizations are neither derivadaa nor nontransverse, so we use the pairing between a real polarization and a holomorphic polarization, which are transverse polarizations on the pair groupoid, to obtain an integral product of functions on the hyperbolic plane.
Geometric quantization Integrals cocariante product Quantization. The first step consists of realizing the symplectic form, ‘omega’, on a symplectic manifold, M, as the curvature form of a line bundle, L, over M.
The functions on M then operate as sections of L.
In the euclidian plane case, we recover the integral Weyl product and, in the Bieliavsky plane case, we obtain the Bieliavsky product. Reproduction for commercial use is forbidden.