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2. Position operator - Wikipedia

   en.wikipedia.org/wiki/Position_operator

   In quantum mechanics, the position operator is the operator that corresponds to the position observable of a particle. When the position operator is considered with a wide enough domain (e.g. the space of tempered distributions), its eigenvalues are the possible position vectors of the particle. [1]

3. Position and momentum spaces - Wikipedia

   en.wikipedia.org/wiki/Position_and_momentum_spaces

   If one chooses the (generalized) eigenfunctions of the position operator as a set of basis functions, one speaks of a state as a wave function ψ(r) in position space. The familiar Schrödinger equation in terms of the position r is an example of quantum mechanics in the position representation. [5]

4. Canonical commutation relation - Wikipedia

   en.wikipedia.org/wiki/Canonical_commutation_relation

   between the position operator x and momentum operator p x in the x direction of a point particle in one dimension, where [x, p x] = x p x − p x x is the commutator of x and p x , i is the imaginary unit, and ℏ is the reduced Planck constant h/2π, and is the unit operator. In general, position and momentum are vectors of operators and their ...

5. Momentum operator - Wikipedia

   en.wikipedia.org/wiki/Momentum_operator

   In quantum mechanics, the momentum operator is the operator associated with the linear momentum. The momentum operator is, in the position representation, an example of a differential operator .

6. Newton–Wigner localization - Wikipedia

   en.wikipedia.org/wiki/Newton–Wigner_localization

   The Newton–Wigner position operators x 1, x 2, x 3, are the premier notion of position in relativistic quantum mechanics of a single particle. They enjoy the same commutation relations with the 3 space momentum operators and transform under rotations in the same way as the x , y , z in ordinary QM .

7. Operator (physics) - Wikipedia

   en.wikipedia.org/wiki/Operator_(physics)

   The mathematical formulation of quantum mechanics (QM) is built upon the concept of an operator. Physical pure states in quantum mechanics are represented as unit-norm vectors (probabilities are normalized to one) in a special complex Hilbert space. Time evolution in this vector space is given by the application of the evolution operator.

8. Observable - Wikipedia

   en.wikipedia.org/wiki/Observable

   In classical mechanics, an observable is a real-valued "function" on the set of all possible system states, e.g., position and momentum. In quantum mechanics, an observable is an operator, or gauge, where the property of the quantum state can be determined by some sequence of operations.

9. Angular momentum operator - Wikipedia

   en.wikipedia.org/wiki/Angular_momentum_operator

   The quantum-mechanical counterparts of these objects share the same relationship: = where r is the quantum position operator, p is the quantum momentum operator, × is cross product, and L is the orbital angular momentum operator.