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The two-state vector formalism of quantum mechanics

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1 The two-state vector formalism of quantum mechanics
Lev Vaidman

2 1b. Paradox: a proof that in two-dimensional space
Exercise: 1a. Prove: 1b. Paradox: a proof that in two-dimensional space But for two-dimensional space there is only one orthogonal state, so

3 The two-state vector

4 The two-state vector ?

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12 The standard (one-state vector) description of a quantum system at time t

13 The standard (one-state vector) description of a quantum system at time t

14 The standard (one-state vector) description of a quantum system at time t

15 The standard (one-state vector) description of a quantum system at time t
We assume:

16 The standard (one-state vector) description of a quantum system

17 The time reversal of

18 The two-state vector The backwards evolving quantum state
The time reversal of The two-state vector

19 ? The two-state vector is a complete description of a system at time t
The two-state vector is what we can say now ( ) about the pre- and post-selected system at time t ?

20 The Aharonov-Bergmann-Lebowitz (ABL) formula:
Measurements performed on a pre- and post-selected system described by the two-state vector: The Aharonov-Bergmann-Lebowitz (ABL) formula:

21 The Aharonov-Bergmann-Lebowitz (ABL) formula:

22 The Aharonov-Bergmann-Lebowitz (ABL) formula:
Measurements performed on a pre- and post-selected system described by the two-state vector: The Aharonov-Bergmann-Lebowitz (ABL) formula:

23 The Aharonov-Bergmann-Lebowitz (ABL) formula:
Measurements performed on a pre- and post-selected system described by the two-state vector: The Aharonov-Bergmann-Lebowitz (ABL) formula: At time t:

24 ? The Aharonov-Bergmann-Lebowitz (ABL) formula:
Measurements performed on a pre- and post-selected system described by the two-state vector: The Aharonov-Bergmann-Lebowitz (ABL) formula: Can we arrange at time t: ? PRL 58, 1385 (1987)

25 ? The 3-boxes paradox Where is the ball?
Aharonov and Vaidman, JPA 24, 2315 (1991)  Vaidman, Found. Phys.  29, 865 (1999) Aharon and Vaidman, PRA 77, (2008) ? Where is the ball?

26 The three box paradox It is in always !

27 The three box paradox It is always in

28 The three box paradox It is always in It is always in but if we open both, it might be in

29 A single photon sees two balls
Y. Aharonov and L. Vaidman Phys. Rev. A 67, (2003)  It scatters exactly as if there were two balls

30 A single ball closes two holes
Y. Aharonov and L. Vaidman Phys. Rev. A 67, (2003)  It scatters exactly as if there were two balls

31 How to close N slits with one shutter?

32 How a spin can be both up and down?
What will happen in Stern-Gerlach experiment?

33 Elements of reality and Product rule

34 Hardy paradox Failure of the product rule
L. Hardy, PRL 68, 2981 (1992) “if we assume realism and we assume that the ‘‘elements of reality’’ corresponding to Lorentz-invariant observables are themselves Lorentz invariant, we can derive a contradiction with quantum mechanics” Failure of the product rule L. Vaidman, PRL 70, 3369 (1993)

35 Peculiar example: a failure of the product rule

36 HYPERENTANGLED STATE

37 Any weak enough coupling to a variable C of a system described by is a coupling to a weak value

38

39 Weak value as an outcome
of a weak measurement

40 Quantum measurement of
Collapse!

41 Weak measurement of with post-selection

42 Weak measurement of with post-selection

43 Weak measurement of with post-selection

44 Weak value as a property of a single system
Weak value is more like an eigenvalue than like an expectation value

45 The weak value as a property of a single system
at a particular time t is a complete description at a particular time t is a complete description of coupling to C at time t

46 System: charged particle, variable: electric field at the origin
eigenvalue expectation value weak value

47 Comparing states of external system after
weak value The system is pre-selected and post-selected eigenvalue The system is pre-selected expectation value The system is pre-selected Bures angle distance

48 Experiment visibility

49 Connection between strong and weak measurements
If is an element of reality then For dichotomic variables: If then is an element of reality

50 If is an element of reality then
For dichotomic variables: If then is an element of reality The three box paradox

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