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Related lectures (14)
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Principles of Quantum Physics
Covers the principles of quantum physics, focusing on tensor product spaces and entangled vectors.
Tensor Products and Symmetric Power
Covers tensor products, symmetric power, and exterior power of vector spaces, including properties and applications.
Tensor Spaces and Unitary Representations
Explores tensor spaces, unitary representations, and prime factorization in mathematical presentations.
States of Composite Systems
Covers the states of composite systems in Hilbert space, including operators, observables, tensor products, eigenvalues, and partial measurements.
Quantum Information Principles
Covers the mathematical principles of quantum physics, including Hilbert spaces and quantum bits.
States of Composite Systems
Covers the concept of states of composite systems in Hilbert space and the tensor or outer product.
Singular Vectors in Liouville CFT: Representation Theory Insights
Covers singular vectors in Liouville CFT, focusing on representation theory and their implications in mathematical physics.
Linear Quantum Calculus in Dirac Notation
Covers linear algebra in Dirac notation, emphasizing the scalar product and density product in quantum computations.
Linear Algebra in Dirac Notation
Covers linear algebra in Dirac notation, focusing on vector spaces and quantum bits.
Group representations constructions
Explores the construction of group representations through various methods and provides an illustrative example using the standard representation of sr2 on c2.
Dirac's Notation, Tensor Product
Covers Dirac's notation in linear algebra and the tensor product concept in Hilbert spaces.
Quantum Physics I
Explores Hamiltonians, Schrodinger equations, composite systems, and quantum measurements in a foundational quantum physics context.
Orthonormal Bases in Hilbert Spaces
Explores orthonormal bases in Hilbert spaces, discussing their properties and generation using the Gram-Schmidt method.
Quantum Mechanics: Crash Course on Quantum Bit Systems
Offers a crash course on quantum bit systems and measurement processes.
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