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Many-body Floquet systems & time-crystalline order

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Presentation on theme: "Many-body Floquet systems & time-crystalline order"— Presentation transcript:

1 Many-body Floquet systems & time-crystalline order
Daniel Cerkoney

2 What is a Floquet system?
Overview What is a Floquet system? Floquet theorem & quasienergy Consequences of the Floquet theorem Comparison with spatial crystals Can one prepare these systems? Yes! (Zhang et al. 2017, Choi et al. 2017)

3 What is a Floquet system?
Exhibits discrete time translation symmetry: For such a system, the Floquet theorem must hold Floquet Theorem: (Note: totally analogous to Bloch’s theorem!)

4 What is a Floquet system?
Exhibits discrete time translation symmetry: For such a system, the Floquet theorem must hold: Expectation: In complete analogy with physical crystallization, we should be able to prepare a system in such a time-crystalline phase, i.e., a time crystal.

5 Floquet Theorem & Quasienergy
Energy → Quasienergy Energy is now only unique modulo the drive period!

6 Floquet Theorem & Quasienergy
Energy → Quasienergy See umklapp processes in spatial crystals:

7 Existence of time crystals
Do they exist in equilibrium? Naively, we expect so by analogy with spatial crystals Spatial case: long-range (periodic) spatial order

8 Existence of time crystals
A caveat: no-go theorem for systems in thermal equilibrium!* Most generally, can define a time crystal by existence of time-dependent long-range order: Intuitively, we don’t expect to get this in the ground state turns out to hold at finite T in equilibrium too! *Watanabe & Oshikawa (Phys. Rev. Lett. 114, (24 June 2015))

9 What about non-equilibrium (driven) systems?
Existence of time crystals What about non-equilibrium (driven) systems? Spontaneous time-translation symmetry breaking is possible!* Many-body localization turns out to be important to get time-dependent correlations in the lowest energy eigenstate E.g., a spin-1/2 system in the presence of a laser Driving: spin flips at regular intervals Strong disorder: many-body localization Long-range interactions: induce time crystallization *Else, Bauer & Nayak (Phys. Rev. Lett. 117, (25 August 2016))

10 What about non-equilibrium (driven) systems?
Existence of time crystals What about non-equilibrium (driven) systems? Spontaneous time-translation symmetry breaking is possible!* Many-body localization turns out to be important to get time-dependent correlations in the lowest energy eigenstate E.g., a spin-1/2 system in the presence of a laser Driving: spin flips at regular intervals Strong disorder: many-body localization Long-range interactions: induce time crystallization Signature of time crystallization = subharmonic response *Else, Bauer & Nayak (Phys. Rev. Lett. 117, (25 August 2016))

11 First experimental observation
Setup: driven linear spin chain of trapped Yb+ ions Monroe et al. (Nature 543, 217–220 (09 March 2017))

12 First experimental observation
Signature: subharmonic response in magnetization Monroe et al. (Nature 543, 217–220 (09 March 2017))

13 First experimental observation
Signature: subharmonic response in magnetization Not robust to disorder without interactions Monroe et al. (Nature 543, 217–220 (09 March 2017))

14 First experimental observation
Signature: subharmonic response in magnetization Monroe et al. (Nature 543, 217–220 (09 March 2017))

15 First experimental observation
Signature: subharmonic response in magnetization Interactions + disorder = stable time crystal Monroe et al. (Nature 543, 217–220 (09 March 2017))

16 First experimental observation
Signature: subharmonic response in magnetization Like a spatial crystal, we can melt it! Monroe et al. (Nature 543, 217–220 (09 March 2017))

17 Another experiment Setup: driven nitrogen-vacancy spin impurities in diamond. Lukin et al. (Nature 543, 221–225 (09 March 2017))

18 Another experiment Low interactions Low interactions + perturb
Signature: subharmonic response in polarization Low interactions Low interactions + perturb High interactions + perturb = time crystal Lukin et al. (Nature 543, 221–225 (09 March 2017))

19 Summary Many-body Floquet systems allow us to study of the effects of spontaneous time-translation symmetry (TTS) breaking Discrete TTS leads to time-crystalline order The consequences of time crystallization are analogous to the familiar spatial case, but… Can only realize in out-of-equilibrium (driven) systems

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