Presentation is loading. Please wait.

Presentation is loading. Please wait.

Hidden topological order in one-dimensional Bose Insulators Ehud Altman Department of Condensed Matter Physics The Weizmann Institute of Science With:

Published byKenneth Rodgers Modified over 8 years ago

Similar presentations

Presentation on theme: "Hidden topological order in one-dimensional Bose Insulators Ehud Altman Department of Condensed Matter Physics The Weizmann Institute of Science With:"— Presentation transcript:

1 Hidden topological order in one-dimensional Bose Insulators Ehud Altman Department of Condensed Matter Physics The Weizmann Institute of Science With: E. Dalla Torre (Weizmann) E. Berg (Stanford & Weizmann)

2 Ultracold atoms in optical lattices. Bose Hubbard model Experiment: Kasevich et al., Science (2001) Greiner et al., Nature (2001) Cataliotti et al., Science (2001) Phillips et al., J. Physics B (2002) Esslinger et al., PRL (2004), …

3 Superfluid to insulator transition U>>J U<<J U/J Theory: Fisher et al. PRB (89), Jaksch et al. PRL (98) Experiment: Greiner et al. Nature (01) Both phases are conceptually very simple. Can we have something more interesting?

4 Polar molecules or atoms in a 1d optical lattice t U E All three parameters are independently tunable.

5 Conventional phases (integer filling) U/t V/t MI CDW SF ? ? ?

6 Outline Phase diagram in 1d (DMRG) - Insulator with hidden topological order - Spin analogy: Haldane gapped state, AKLT How to detect hidden order ? - Distinct collective mode, quantum criticality - Use MFT to calculate absorption spectrum Open questions

7 First look with DMRG MI CDW SF U/t V/t Length: L=256 Energy gap Filling: Hidden order ? Measure the local density:

8 Phase diagram (DMRG) Length: L=256 Filling: Correlation functions SF: CDW: String: String order CDW

9 Interpretation of the phase: Spin 1 analogy Keep only 3 occupation states: 0 0 0 1 Effective spin hamiltonian:

10 Spin 1 – phase diagram V/J U/J Mott Haldane Neel Breaking of hidden Z 2 X Z 2 symmetry (only Z 2 in Bose system) String correlation: Den Nijs & Rommelse (89) Kennedy &Tasaki (92) X4 (X2) edge degeneracy

11 How to detect hidden order ?

12 Parametric excitation Periodic modulation of lattice intensity: Used to probe excitations in SF and MI Absorption spectrum in linear response: Stoferle et. al., PRL 04 (ETH)

13 Absorption spectrum from mean field theory 1 Non local unitary transformation (Kennedy & Tasaki, Oshikawa): Mean field wave function:

14 Absorption spectrum from mean field theory 2 Fluctuations: Expand perturbation in terms of the fluctuations: Neutral mode Particle-hole continuum

15 Compare with numerics U V Neutral mode

16 Many open questions Nature of the quantum phase transitions (effect of p.h. symmetry breaking) Possibility of observing edge states? Extension to quasi 2D (dipole interactions between parallel chains)

17 Unconventional / conventional 2D phases ? 1D – 2D phase transitions tuned by angle of external field ?

18 Conclusions Phase diagram of bosons with 1/r 3 repulsion: unconventional insulating phase Realization and detection with ultra cold dipolar bosons in optical lattice. Distinct neutral collective mode 2D generalizations ?

Download ppt "Hidden topological order in one-dimensional Bose Insulators Ehud Altman Department of Condensed Matter Physics The Weizmann Institute of Science With:"

Similar presentations

Trapped ultracold atoms: Bosons Bose-Einstein condensation of a dilute bosonic gas Probe of superfluidity: vortices.

Trapped ultracold atoms: Bosons Bose-Einstein condensation of a dilute bosonic gas Probe of superfluidity: vortices.
Exploring Topological Phases With Quantum Walks $$ NSF, AFOSR MURI, DARPA, ARO Harvard-MIT Takuya Kitagawa, Erez Berg, Mark Rudner Eugene Demler Harvard.

Exploring Topological Phases With Quantum Walks $$ NSF, AFOSR MURI, DARPA, ARO Harvard-MIT Takuya Kitagawa, Erez Berg, Mark Rudner Eugene Demler Harvard.
Dynamics of bosonic cold atoms in optical lattices. K. Sengupta Indian Association for the Cultivation of Science, Kolkata Collaborators: Anirban Dutta,

Dynamics of bosonic cold atoms in optical lattices. K. Sengupta Indian Association for the Cultivation of Science, Kolkata Collaborators: Anirban Dutta,
Cold Atoms in rotating optical lattice Sankalpa Ghosh, IIT Delhi Ref: Rashi Sachdev, Sonika Johri, SG arXiv: 1005.4391 Acknowledgement: G.V Pi, K. Sheshadri,

Cold Atoms in rotating optical lattice Sankalpa Ghosh, IIT Delhi Ref: Rashi Sachdev, Sonika Johri, SG arXiv: Acknowledgement: G.V Pi, K. Sheshadri,
Quantum critical states and phase transitions in the presence of non equilibrium noise Emanuele G. Dalla Torre – Weizmann Institute of Science, Israel.

Quantum critical states and phase transitions in the presence of non equilibrium noise Emanuele G. Dalla Torre – Weizmann Institute of Science, Israel.
Learning about order from noise Quantum noise studies of ultracold atoms Eugene Demler Harvard University Funded by NSF, Harvard-MIT CUA, AFOSR, DARPA,

Learning about order from noise Quantum noise studies of ultracold atoms Eugene Demler Harvard University Funded by NSF, Harvard-MIT CUA, AFOSR, DARPA,
Magnetism in systems of ultracold atoms: New problems of quantum many-body dynamics E. Altman (Weizmann), P. Barmettler (Frieburg), V. Gritsev (Harvard,

Magnetism in systems of ultracold atoms: New problems of quantum many-body dynamics E. Altman (Weizmann), P. Barmettler (Frieburg), V. Gritsev (Harvard,
Subir Sachdev Quantum phase transitions of ultracold atoms Transparencies online at Quantum Phase Transitions Cambridge.

Subir Sachdev Quantum phase transitions of ultracold atoms Transparencies online at Quantum Phase Transitions Cambridge.
Nonequilibrium dynamics of ultracold fermions Theoretical work: Mehrtash Babadi, David Pekker, Rajdeep Sensarma, Ehud Altman, Eugene Demler $$ NSF, MURI,

Nonequilibrium dynamics of ultracold fermions Theoretical work: Mehrtash Babadi, David Pekker, Rajdeep Sensarma, Ehud Altman, Eugene Demler $$ NSF, MURI,
Subir Sachdev Science 286, 2479 (1999). Quantum phase transitions in atomic gases and condensed matter Transparencies online at

Subir Sachdev Science 286, 2479 (1999). Quantum phase transitions in atomic gases and condensed matter Transparencies online at
Lattice modulation experiments with fermions in optical lattice Dynamics of Hubbard model Ehud Altman Weizmann Institute David Pekker Harvard University.

Lattice modulation experiments with fermions in optical lattice Dynamics of Hubbard model Ehud Altman Weizmann Institute David Pekker Harvard University.
Hubbard model(s) Eugene Demler Harvard University Collaboration with

Hubbard model(s) Eugene Demler Harvard University Collaboration with
Interacting Ultra Cold Atoms a brief overview Fei Zhou PITP, University of British Columbia at Quantum Nanoscience conference, Noosa Blue, Australia, Jan.

Interacting Ultra Cold Atoms a brief overview Fei Zhou PITP, University of British Columbia at Quantum Nanoscience conference, Noosa Blue, Australia, Jan.
Spin Correlated States in Optical Lattices Fei Zhou ( ITP, Utrecht ) April 15, 2003 PIMS, Banff National Park, Canada Acknowledgement: E.Demler (Harvard),

Spin Correlated States in Optical Lattices Fei Zhou ( ITP, Utrecht ) April 15, 2003 PIMS, Banff National Park, Canada Acknowledgement: E.Demler (Harvard),
Conference on quantum fluids and strongly correlated systems Paris 2008.

Conference on quantum fluids and strongly correlated systems Paris 2008.
Phase Diagram of One-Dimensional Bosons in Disordered Potential Anatoli Polkovnikov, Boston University Collaboration: Ehud Altman-Weizmann Yariv Kafri.

Phase Diagram of One-Dimensional Bosons in Disordered Potential Anatoli Polkovnikov, Boston University Collaboration: Ehud Altman-Weizmann Yariv Kafri.
Bose-Fermi solid and its quantum melting in a one-dimensional optical lattice Bin Wang 1, Daw-Wei Wang 2, and Sankar Das Sarma 1 1 CMTC, Department of.

Bose-Fermi solid and its quantum melting in a one-dimensional optical lattice Bin Wang 1, Daw-Wei Wang 2, and Sankar Das Sarma 1 1 CMTC, Department of.
Quantum Phase Transition in Ultracold bosonic atoms Bhanu Pratap Das Indian Institute of Astrophysics Bangalore.

Quantum Phase Transition in Ultracold bosonic atoms Bhanu Pratap Das Indian Institute of Astrophysics Bangalore.
Measuring correlation functions in interacting systems of cold atoms Anatoli Polkovnikov Boston University Ehud Altman Weizmann Vladimir Gritsev Harvard.

Measuring correlation functions in interacting systems of cold atoms Anatoli Polkovnikov Boston University Ehud Altman Weizmann Vladimir Gritsev Harvard.
Spinor condensates beyond mean-field

Spinor condensates beyond mean-field

Similar presentations

Ads by Google