Presentation is loading. Please wait.

Presentation is loading. Please wait.

Quantum metrology: dynamics vs. entanglement

Published byJocelin Ryan Modified over 8 years ago

Similar presentations

Presentation on theme: "Quantum metrology: dynamics vs. entanglement"— Presentation transcript:

1 Quantum metrology: dynamics vs. entanglement
APS March Meeting Pittsburgh, 2009 March 16 Ramsey interferometry and cat states Quantum information perspective Beyond the Heisenberg limit Two-component BECs Appendix. Quantum metrology and resources Carlton M. Caves University of New Mexico Quantum circuits in this presentation were set using the LaTeX package Qcircuit, developed at the University of New Mexico by Bryan Eastin and Steve Flammia. The package is available at .

2 Herod’s Gate/King David’s Peak
I. Ramsey interferometry and cat states Herod’s Gate/King David’s Peak Walls of Jerusalem NP Tasmania

3 Ramsey interferometry
N independent “atoms” Frequency measurement Time measurement Clock synchronization Shot-noise limit

4 Cat-state Ramsey interferometry Fringe pattern with period 2π/N
J. J. Bollinger, W. M. Itano, D. J. Wineland, and D. J. Heinzen, Phys. Rev. A 54, R4649 (1996). N cat-state atoms Heisenberg limit It’s the entanglement, stupid.

5 II. Quantum information perspective
Cable Beach Western Australia

6 Quantum information version of interferometry
Shot-noise limit N = 3 cat state Heisenberg limit Fringe pattern with period 2π/N

7 Cat-state interferometer Single-parameter estimation
preparation Measurement Cat-state interferometer Single-parameter estimation

8 uncertainty principle
Heisenberg limit S. L. Braunstein, C. M. Caves, and G. J. Milburn, Ann. Phys. 247, 135 (1996). V. Giovannetti, S. Lloyd, and L. Maccone, PRL 96, (2006). Separable inputs Generalized uncertainty principle (Cramér-Rao bound)

9 Achieving the Heisenberg limit
cat state

10 It’s the entanglement, stupid. Is it entanglement?
But what about? We need a generalized notion of entanglement that includes information about the physical situation, particularly the relevant Hamiltonian.

11 III. Beyond the Heisenberg limit
Echidna Gorge Bungle Bungle Range Western Australia

12 Beyond the Heisenberg limit
The purpose of theorems in physics is to lay out the assumptions clearly so one can discover which assumptions have to be violated.

13 Improving the scaling with N Nonlinear Ramsey interferometry
S. Boixo, S. T. Flammia, C. M. Caves, and JM Geremia, PRL 98, (2007). Cat state does the job. Nonlinear Ramsey interferometry Metrologically relevant k-body coupling

14 Improving the scaling with N without entanglement
S. Boixo, A. Datta, S. T. Flammia, A. Shaji, E. Bagan, and C. M. Caves, PRA 77, (2008). Product input measurement

15 Improving the scaling with N without entanglement. Two-body couplings
S. Boixo, A. Datta, S. T. Flammia, A. Shaji, E. Bagan, and C. M. Caves, PRA 77, (2008); M. J. Woolley, G. J. Milburn, and C. M. Caves, arXiv: [quant-ph].

16 Improving the scaling with N without entanglement. Two-body couplings
S. Boixo, A. Datta, M. J. Davis, S. T. Flammia, A. Shaji, and C. M. Caves, PRL 101, (2008). Super-Heisenberg scaling from nonlinear dynamics, without any particle entanglement Scaling robust against decoherence

17 IV. Two-component BECs Pecos Wilderness Sangre de Cristo Range
Northern New Mexico

18 Two-component BECs

19 Different spatial wave functions
Two-component BECs Different spatial wave functions J. E. Williams, PhD dissertation, University of Colorado, 1999.

20 Different spatial wave functions
Two-component BECs Different spatial wave functions Renormalization of scattering strengths Let’s start over.

21 Two-component BECs Different spatial wave functions
Renormalization of scattering strengths

22 With hard, low-dimensional trap
Two-component BECs Two-body elastic losses Imprecise determination of N ? Perhaps ? With hard, low-dimensional trap

23 Appendix. Quantum metrology and resources
Cape Hauy Tasman Peninsula

24 Making quantum limits relevant
The serial resource, T, and the parallel resource, N, are equivalent and interchangeable, mathematically. The serial resource, T, and the parallel resource, N, are not equivalent and not interchangeable, physically. Information science perspective Platform independence Physics perspective Distinctions between different physical systems

25 Making quantum limits relevant. One metrology story
A. Shaji and C. M. Caves, PRA 76, (2007).

26 One metrology story

27 One metrology story

Download ppt "Quantum metrology: dynamics vs. entanglement"

Similar presentations

1 Taoufik AMRI. Overview 3 Chapter II Quantum Protocols Chapter III Quantum States and Propositions Chapter VI Detector of « Schrödingers Cat » States.

1 Taoufik AMRI. Overview 3 Chapter II Quantum Protocols Chapter III Quantum States and Propositions Chapter VI Detector of « Schrödingers Cat » States.
Quantum-limited measurements: One physicist’s crooked path from quantum optics to quantum information I.Introduction II.Squeezed states and optical interferometry.

Quantum-limited measurements: One physicist’s crooked path from quantum optics to quantum information I.Introduction II.Squeezed states and optical interferometry.
Frustration of Decoherence and Entanglement-sharing in the Spin-bath Andrew Hines Christopher Dawson Ross McKenzie Gerard Milburn.

Frustration of Decoherence and Entanglement-sharing in the Spin-bath Andrew Hines Christopher Dawson Ross McKenzie Gerard Milburn.
From Gravitational Wave Detectors to Completely Positive Maps and Back R. Demkowicz-Dobrzański 1, K. Banaszek 1, J. Kołodyński 1, M. Jarzyna 1, M. Guta.

From Gravitational Wave Detectors to Completely Positive Maps and Back R. Demkowicz-Dobrzański 1, K. Banaszek 1, J. Kołodyński 1, M. Jarzyna 1, M. Guta.
Experimental quantum estimation using NMR Diogo de Oliveira Soares Pinto Instituto de Física de São Carlos Universidade de São Paulo

Experimental quantum estimation using NMR Diogo de Oliveira Soares Pinto Instituto de Física de São Carlos Universidade de São Paulo
Quantum limits in optical interferometry R. Demkowicz-Dobrzański 1, K. Banaszek 1, J. Kołodyński 1, M. Jarzyna 1, M. Guta 2, K. Macieszczak 1,2, R. Schnabel.

Quantum limits in optical interferometry R. Demkowicz-Dobrzański 1, K. Banaszek 1, J. Kołodyński 1, M. Jarzyna 1, M. Guta 2, K. Macieszczak 1,2, R. Schnabel.
Durham University – Atomic & Molecular Physics group

Durham University – Atomic & Molecular Physics group
Quantum limits on linear amplifiers I.What’s the problem? II.Quantum limits on noise in phase-preserving linear amplifiers. The whole story III.Completely.

Quantum limits on linear amplifiers I.What’s the problem? II.Quantum limits on noise in phase-preserving linear amplifiers. The whole story III.Completely.
GHZ correlations are just a bit nonlocal Carlton M. Caves University of New Mexico caves Seminar date Please join the APS Topical.

GHZ correlations are just a bit nonlocal Carlton M. Caves University of New Mexico caves Seminar date Please join the APS Topical.
Everything I know I learned by doing physics homework problems I.Tips for solving physics homework problems II.How long does something last? Predicting.

Everything I know I learned by doing physics homework problems I.Tips for solving physics homework problems II.How long does something last? Predicting.
Quantum limits on estimating a waveform I.Introduction. What’s the problem? II.Standard quantum limit (SQL) for force detection. The right wrong story.

Quantum limits on estimating a waveform I.Introduction. What’s the problem? II.Standard quantum limit (SQL) for force detection. The right wrong story.
Quantum enhanced metrology R. Demkowicz-Dobrzański 1, K. Banaszek 1, U. Dorner 2, I. A. Walmsley 2, W. Wasilewski 1, B. Smith 2, J. Lundeen 2, M. Kacprowicz.

Quantum enhanced metrology R. Demkowicz-Dobrzański 1, K. Banaszek 1, U. Dorner 2, I. A. Walmsley 2, W. Wasilewski 1, B. Smith 2, J. Lundeen 2, M. Kacprowicz.
Universal Optical Operations in Quantum Information Processing Wei-Min Zhang ( Physics Dept, NCKU )

Universal Optical Operations in Quantum Information Processing Wei-Min Zhang ( Physics Dept, NCKU )
What the #$*! Do We (K)now!? about Quantum Mechanics View from Cape Hauy Tasman Peninsula,Tasmania Aspens in the Sangre de Cristo Range Northern New Mexico.

What the #$*! Do We (K)now!? about Quantum Mechanics View from Cape Hauy Tasman Peninsula,Tasmania Aspens in the Sangre de Cristo Range Northern New Mexico.
Complexity and Disorder at Ultra-Low Temperatures 30th Annual Conference of LANL Center for Nonlinear Studies SantaFe, 2010 June 25 Quantum metrology:

Complexity and Disorder at Ultra-Low Temperatures 30th Annual Conference of LANL Center for Nonlinear Studies SantaFe, 2010 June 25 Quantum metrology:
I.1 ii.2 iii.3 iv.4 1+1=. i.1 ii.2 iii.3 iv.4 1+1=

I.1 ii.2 iii.3 iv.4 1+1=. i.1 ii.2 iii.3 iv.4 1+1=
What are the laws of physics? Resisting reification

What are the laws of physics? Resisting reification
Quantum dynamics with ultra cold atoms Nir Davidson Weizmann Institute of Science Billiards BEC I. Grunzweig, Y. Hertzberg, A. Ridinger (M. Andersen, A.

Quantum dynamics with ultra cold atoms Nir Davidson Weizmann Institute of Science Billiards BEC I. Grunzweig, Y. Hertzberg, A. Ridinger (M. Andersen, A.
I.1 ii.2 iii.3 iv.4 1+1=. i.1 ii.2 iii.3 iv.4 1+1=

I.1 ii.2 iii.3 iv.4 1+1=. i.1 ii.2 iii.3 iv.4 1+1=
Interference of fluctuating condensates Anatoli Polkovnikov Harvard/Boston University Ehud Altman Harvard/Weizmann Vladimir Gritsev Harvard Mikhail Lukin.

Interference of fluctuating condensates Anatoli Polkovnikov Harvard/Boston University Ehud Altman Harvard/Weizmann Vladimir Gritsev Harvard Mikhail Lukin.

Similar presentations

Ads by Google