Atomic Structure
... a. Compare the Bohr model to the quantum model of the atom, what parallels can you draw? b. What is normalization and what is its physical significance? The requirements that the wave function be normalisable and continuous introduce three quantum numbers, n, l and m. c. What do these quantum number ...
... a. Compare the Bohr model to the quantum model of the atom, what parallels can you draw? b. What is normalization and what is its physical significance? The requirements that the wave function be normalisable and continuous introduce three quantum numbers, n, l and m. c. What do these quantum number ...
Conclusive Exclusion of Quantum States
... rule that a subset of the possible preparation procedures can not have taken place. We ask what conditions the set of states must obey in order for this to be possible and how well we can complete the task when it is not. Interestingly, the task of quantum state discrimination forms a subclass of th ...
... rule that a subset of the possible preparation procedures can not have taken place. We ask what conditions the set of states must obey in order for this to be possible and how well we can complete the task when it is not. Interestingly, the task of quantum state discrimination forms a subclass of th ...
Atomic and Molecular Physics for Physicists Ben-Gurion University of the Negev
... If particles are waves, how do we use infinite waves to described localized entities? The wave packet has a finite width and can therefore be used to describe particles. How do we make wave packets from waves? We used many frequencies! Ψ(x)=∫dk Ψ(k) eikx ...
... If particles are waves, how do we use infinite waves to described localized entities? The wave packet has a finite width and can therefore be used to describe particles. How do we make wave packets from waves? We used many frequencies! Ψ(x)=∫dk Ψ(k) eikx ...
Notations for today’s lecture (1 ) A complete set of ;
... Φα({x} ; t ) = < 0 | eitH/ħ Ψ(x1)Ψ(x2)...Ψ(xN)e−itH/ħ | α > (Trick question: Is this the Schroedinger picture or the Heisenberg picture?) Note that Φα is not an expectation value. The N factors of Ψ annihilate the particles, ...
... Φα({x} ; t ) = < 0 | eitH/ħ Ψ(x1)Ψ(x2)...Ψ(xN)e−itH/ħ | α > (Trick question: Is this the Schroedinger picture or the Heisenberg picture?) Note that Φα is not an expectation value. The N factors of Ψ annihilate the particles, ...
