Geometric aspects of global bifurcation in nonlinear elasticity.- The branching of solutions of Einstein's equations.- What does supergravity teach us about gravity?.- Classical 1/2 spin particles interacting with gravitational fields: A supersymmetric model.- Generalized constraint algorithm and special presymplectic manifolds.- Deformations and quantization.- Holomorphic gauge theory.- A geometric variational formalism for the theory of nonlinear waves.- Geometry of jet bundles and the structure of lagrangian and hamiltonian formalisms.- Involution theorems.
Inhaltsverzeichnis
Geometric aspects of global bifurcation in nonlinear elasticity.- The branching of solutions of Einstein's equations.- What does supergravity teach us about gravity?.- Classical 1/2 spin particles interacting with gravitational fields: A supersymmetric model.- Generalized constraint algorithm and special presymplectic manifolds.- Deformations and quantization.- Holomorphic gauge theory.- A geometric variational formalism for the theory of nonlinear waves.- Geometry of jet bundles and the structure of lagrangian and hamiltonian formalisms.- Involution theorems.
Klappentext
Geometric aspects of global bifurcation in nonlinear elasticity.- The branching of solutions of Einstein's equations.- What does supergravity teach us about gravity?.- Classical 1/2 spin particles interacting with gravitational fields: A supersymmetric model.- Generalized constraint algorithm and special presymplectic manifolds.- Deformations and quantization.- Holomorphic gauge theory.- A geometric variational formalism for the theory of nonlinear waves.- Geometry of jet bundles and the structure of lagrangian and hamiltonian formalisms.- Involution theorems.
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