Course Syllabus
... There will be a “mid-term” and a final exam. Course Credit: 40% final; 30% final; 30% homework. Note: Both exams (mid-term and final) will reflect rather closely the material covered in homework assignments, and in my lectures; there will be no “surprises.” So, in practice, the Homework counts much ...
... There will be a “mid-term” and a final exam. Course Credit: 40% final; 30% final; 30% homework. Note: Both exams (mid-term and final) will reflect rather closely the material covered in homework assignments, and in my lectures; there will be no “surprises.” So, in practice, the Homework counts much ...
Chemistry 871/671/495, Structure and Bonding
... on quantum mechanics. In this course, we will introduce quantum mechanical principles and their applications to atomic and molecular systems. We will start by discussing the failures of classical physics, and the birth of quantum mechanics. Then, basic quantum mechanical concepts such as wave functi ...
... on quantum mechanics. In this course, we will introduce quantum mechanical principles and their applications to atomic and molecular systems. We will start by discussing the failures of classical physics, and the birth of quantum mechanics. Then, basic quantum mechanical concepts such as wave functi ...
Gravitational Cat State and Stochastic Semiclassical Gravity*
... quantum and gravitation theory include: (i) mass density fluctuations persist even in single particle systems, of the same order of magnitude as the mean; (ii) a classical probe generically records a non-Markovian fluctuating force; (iii) a quantum probe interacting with the G2S system may undergo R ...
... quantum and gravitation theory include: (i) mass density fluctuations persist even in single particle systems, of the same order of magnitude as the mean; (ii) a classical probe generically records a non-Markovian fluctuating force; (iii) a quantum probe interacting with the G2S system may undergo R ...
The Postulates of Quantum Mechanics Postulate 1 Postulate 2 H
... Although measurement will always yield a value, the initial state does not have to be an eigenstate of A^. An arbitrary state can be expanded in the complete set of eigenvectors of A^, A^i = ai i , as n X = ci i i ...
... Although measurement will always yield a value, the initial state does not have to be an eigenstate of A^. An arbitrary state can be expanded in the complete set of eigenvectors of A^, A^i = ai i , as n X = ci i i ...
Special Issue on Lie Group Representation Theory, Coherent States,
... is an essential resource when facing those two fundamental problems, either as a valuable (mathematical) classification tool, a (gauge) guiding principle, or an essential building block, when the group structure is taken to the ultimate consequences. Although the representation theory of finitedimen ...
... is an essential resource when facing those two fundamental problems, either as a valuable (mathematical) classification tool, a (gauge) guiding principle, or an essential building block, when the group structure is taken to the ultimate consequences. Although the representation theory of finitedimen ...
2/25/11 QUANTUM MECHANICS II (524) PROBLEM SET 6 (hand in
... electron). The electron angular momentum is denoted by J = L + S, where L is the orbital angular momentum of the electron and S its spin. The total angular momentum of the atom is F = J + I, where I is the nuclear spin. a) What are the possible values of the quantum numbers J and F for a deuterium a ...
... electron). The electron angular momentum is denoted by J = L + S, where L is the orbital angular momentum of the electron and S its spin. The total angular momentum of the atom is F = J + I, where I is the nuclear spin. a) What are the possible values of the quantum numbers J and F for a deuterium a ...
Mott insulators, Noise correlations and Coherent Spin Dynamics in Optical Lattices
... quantum phases of strongly correlated systems have been proposed for ultracold gases in optical lattices, however it has been unclear how a large variety of such states could be efficiently detected. We show that Hanbury Brown-Twiss noise correlation measurements of ultracold quantum gases allow a d ...
... quantum phases of strongly correlated systems have been proposed for ultracold gases in optical lattices, however it has been unclear how a large variety of such states could be efficiently detected. We show that Hanbury Brown-Twiss noise correlation measurements of ultracold quantum gases allow a d ...