Presentation is loading. Please wait.

Presentation is loading. Please wait.

Effective Non-Hermitian Hamiltonian of a pre- and post-selected quantum system Lev Vaidman 12.7.2015.

Published byLorena Knight Modified over 8 years ago

Similar presentations

Presentation on theme: "Effective Non-Hermitian Hamiltonian of a pre- and post-selected quantum system Lev Vaidman 12.7.2015."— Presentation transcript:

1

2 Effective Non-Hermitian Hamiltonian of a pre- and post-selected quantum system Lev Vaidman 12.7.2015

3

4

5 Conditioned evolution Weak values and weak measurements Evolution of pre- and post-selected system Plan Two state-vector Past of a quantum particle 3-box paradox Correlations of uncorrelated pre- and post-selected particles

6 Unitary evolution

7 no click Non-unitary evolution

8 no click Non-unitary evolution

9 no click Non-unitary evolution

10 Collapse of the wave function

11 What is the evolution conditioned on nondetection? no click

12 What is the evolution conditioned on nondetection?

13 What was time evolution before the particle was detected, given that it was detected? What is the evolution conditioned on detection?

14

15 What was the interaction Hamiltonian for (weak) interaction with other systems? What is the evolution conditioned on detection?

16 What was the interaction Hamiltonian for (weak) interaction with other systems?

17 Where were the pre- and post-selected photons?

18 B A Asking photons where have they been POWER SPECTRUM A. Danan, D. Farfurnik, S. Bar-Ad and L. Vaidman, Phys. Rev. Lett. 111, 240402 (2013)

19 POWER SPECTRUM B A Asking photons where have they been Photons were on the paths they could pass

20 B A Asking photons where have they been POWER SPECTRUM Photons were on the paths they could pass

21 B A Asking photons where have they been POWER SPECTRUM Photons were on the paths they could pass

22 C F E POWER SPECTRUM B A Asking photons where have they been Photons were on the paths they could pass

23 Asking photons where have they been B C A F E POWER SPECTRUM Photons were on the paths they could not pass! How to explain this?

24 The two-state vector formalism

25 The two-state vector

26

27

28

29

30

31

32

33

34 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 So, what can we say?

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

36 The outcomes of weak measurements are weak values Weak value of a variable C of a pre- and post-selected system described at time t by the two-state vector

37 Weak value of a variable C of a pre- and post-selected system described at time t by the two-state vector The outcomes of weak measurements are weak values

38 The weak value If the pre- and post-selected system is coupled to other systems through C, then its coupling at time t is described (completely) by the weak value

39 Effective non-Hermitian Hamiltonian Y. Aharonov, S. Massar, S. Popescu, J. Tollaksen, and L. Vaidman, PRL 77, 983-987 (1996 )

40 Asking photons where have they been B C A F E POWER SPECTRUM Photons were on the paths they could not pass! How to explain this?

41 B A The two-state vector formalism explanation

42 B A

43 B A POWER SPECTRUM The two-state vector formalism explanation

44 B C A F E D

45 B C A F E D

46 B C A F E D

47 B C A F E D POWER SPECTRUM

48 B C A F E D The two-state vector formalism explanation POWER SPECTRUM

49 B C A F E D The two-state vector formalism explanation

50 B C A F E D

51 B C A F E D POWER SPECTRUM K.J. Resch,, J.S. Lundeen,, A.M. Steinberg, PLA 324, 125 (2004) Experimental realization of the quantum box problem

52 Where is the ball? ? Aharonov and Vaidman, JPA 24, 2315 (1991) Aharon and Vaidman, PRA 77, 052310 (2008) The 3-boxes paradox Vaidman, Found. Phys. 29, 865 (1999)

53 The three box paradox It is in always !

54 The three box paradox It is always in

55 Two useful theorems: The three box paradox For dichotomic variables:

56 Correlation between separable pre- and post-selected particles Aharonov and Cohen, arXiv:1504.03797

57 Failure of the product rule for pre- and post-selected particles

58 Pre- and post-selected quantum systems are described best by two-state vector and weak values of observables Evolution of systems coupled to pre- and post-selected quantum systems is described by non-Hermitian Hamiltonians Conclusions

59

60

61 B C A F E D The one-state vector formalism explanation

62 C F E POWER SPECTRUM B A Photons: Wheeler is right!

63

64

65 For dichotomic variables Connection between strong and weak measurements

66

67 Pointer probability distribution ! Weak measurement of Pre-selection Post-selection The outcomes of weak measurements are weak values

68 Pointer probability distribution Weak Measurement of 20 particles pre-selected 20 particles post-selected Robust weak measurement on a pre- and post-selected single system The system of 20 particles !

Download ppt "Effective Non-Hermitian Hamiltonian of a pre- and post-selected quantum system Lev Vaidman 12.7.2015."

Similar presentations

Vlatko Vedral Oxford and Singapore Extreme nonlocality with a single photon.

Vlatko Vedral Oxford and Singapore Extreme nonlocality with a single photon.
Xkcd xkcd.com. Section 2 Recap ► ► Principle of Superposition: quantum states show interference and require both an amplitude and a phase for the parts.

Xkcd xkcd.com. Section 2 Recap ► ► Principle of Superposition: quantum states show interference and require both an amplitude and a phase for the parts.
Ask a Question What are we testing? Step 1. Step 2 Research your topic. Look at the past work of others to see if this problem has already been tested.

Ask a Question What are we testing? Step 1. Step 2 Research your topic. Look at the past work of others to see if this problem has already been tested.
1 Separability and entanglement: what symmetries and geometry can say Helena Braga, Simone Souza and Salomon S. Mizrahi Departamento de Física, CCET, Universidade.

1 Separability and entanglement: what symmetries and geometry can say Helena Braga, Simone Souza and Salomon S. Mizrahi Departamento de Física, CCET, Universidade.
Experimental Issues in Quantum Measurement Aephraim Steinberg Why does one thing happen and not another? When is a quantum measurement? Does a measurement.

Experimental Issues in Quantum Measurement Aephraim Steinberg Why does one thing happen and not another? When is a quantum measurement? Does a measurement.
Implementation of Practically Secure Quantum Bit Commitment Protocol Ariel Danan School of Physics Tel Aviv University September 2008.

Implementation of Practically Secure Quantum Bit Commitment Protocol Ariel Danan School of Physics Tel Aviv University September 2008.
QUANTUM MECHANICS Probability & Uncertainty 1.Probability 2.Uncertainty 3.Double-slit photons.

QUANTUM MECHANICS Probability & Uncertainty 1.Probability 2.Uncertainty 3.Double-slit photons.
Quantum Information Stephen M. Barnett University of Strathclyde The Wolfson Foundation.

Quantum Information Stephen M. Barnett University of Strathclyde The Wolfson Foundation.
Shanhui Fan, Shanshan Xu, Eden Rephaeli

Shanhui Fan, Shanshan Xu, Eden Rephaeli
1 quantum teleportation David Riethmiller 28 May 2007.

1 quantum teleportation David Riethmiller 28 May 2007.
Quantum Control of Wave- Particle Duality Robert Mann D. Terno, R. Ionicioiu, T. Jennewein.

Quantum Control of Wave- Particle Duality Robert Mann D. Terno, R. Ionicioiu, T. Jennewein.
Durham University – Atomic & Molecular Physics group

Durham University – Atomic & Molecular Physics group
Novel Temporal Paradoxes in QM Offering Insights to the Nature of Time Avshalom C. Elitzur 1, Eliahu Cohen 2 Copyleft – All rights re vers ed Permission.

Novel Temporal Paradoxes in QM Offering Insights to the Nature of Time Avshalom C. Elitzur 1, Eliahu Cohen 2 Copyleft – All rights re vers ed Permission.
Time in the Weak Value and the Discrete Time Quantum Walk Yutaka Shikano Theoretical Astrophysics Group, Department of Physics, Tokyo Institute of Technology.

Time in the Weak Value and the Discrete Time Quantum Walk Yutaka Shikano Theoretical Astrophysics Group, Department of Physics, Tokyo Institute of Technology.
The Postulates of Quantum Mechanics

The Postulates of Quantum Mechanics
Bohm versus Everett 21st-century directions in de Broglie-Bohm theory and beyond THE TOWLER INSTITUTE The Apuan Alps Centre for Physics Vallico Sotto,

Bohm versus Everett 21st-century directions in de Broglie-Bohm theory and beyond THE TOWLER INSTITUTE The Apuan Alps Centre for Physics Vallico Sotto,
Reversible Weak Quantum Measurements 09 December 2008 Presented by: Adam Reiser Anuj Das Neil Kumar George O’Quinn.

Reversible Weak Quantum Measurements 09 December 2008 Presented by: Adam Reiser Anuj Das Neil Kumar George O’Quinn.
If is an element of reality then If then is an element of reality For dichotomic variables:

If is an element of reality then If then is an element of reality For dichotomic variables:
Backward Evolving Quantum State Lev Vaidman 2 March 2006.

Backward Evolving Quantum State Lev Vaidman 2 March 2006.
L. Besombes et al., PRL93, 207403, 2004 Single exciton spectroscopy in a semimagnetic nanocrystal J. Fernández-Rossier Institute of Materials Science,

L. Besombes et al., PRL93, , 2004 Single exciton spectroscopy in a semimagnetic nanocrystal J. Fernández-Rossier Institute of Materials Science,

Similar presentations

Ads by Google