An infinite chain of driven-dissipative condensate spins with uniform
nearest-neighbor coherent coupling is solved analytically and investigated
numerically. Above a critical occupation threshold the condensates undergo
spontaneous spin bifurcation (becoming magnetized) forming a binary chain of
spin-up or spin-down states. Minimization of the bifurcation threshold
determines the magnetic order as a function of the coupling strength. This
allows control of multiple magnetic orders via adiabatic (slow ramping of)
pumping. In addition to ferromagnetic and anti-ferromagnetic ordered states we
show the formation of a paired-spin ordered state $\left|\dots \uparrow
\uparrow \downarrow \downarrow \dots \right. \rangle$ as a consequence of the
phase degree of freedom between condensates

Baumberg, JJ

Liew, TCH

Ohadi, H

Ramsay, AJ

Rubo, YG

Shelykh, IA

Sigurdsson, H

English

arXiv

An infinite chain of driven-dissipative condensate spins with uniform nearest-neighbor coherent coupling is solved analytically and investigated numerically. Above a critical occupation threshold the condensates undergo spontaneous spin bifurcation (becoming magnetized) forming a binary chain of spin-up or spin-down states. Minimization of the bifurcation threshold determines the magnetic order as a function of the coupling strength. This allows control of multiple magnetic orders via adiabatic (slow ramping of) pumping. In addition to ferromagnetic and antiferromagnetic ordered states we show the formation of a paired-spin ordered state |···↑↑↓↓···⟩ as a consequence of the phase degree of freedom between condensates

Sigurdsson, H.

Ramsay, A. J.

Ohadi, H.

Rubo, Y. G.

Liew, T. C.H.

Baumberg, J. J.

Shelykh, I. A.

University of St. Andrews - Pure

Driven-dissipative spin chain model based on exciton-polariton condensates

This work was supported by the Research Fund of the University of Iceland, The Icelandic Research Fund, Grant No. 163082-051, Grant No. EPSRC EP/L027151/1, Grant No. ERC LINASS 320503, the Mexican Conacyt Grant No. 251808, and the Singaporean MOE GrantsNo. 2015-T2-1-055 and No. 2016-T1-1-084. I.A.S. acknowledges support from a mega-grant No. 14.Y26.31.0015 and GOSZADANIE No.3.2614.2017/4.6 of the Ministry of Education and Science of Russian Federation.An infinite chain of driven-dissipative condensate spins with uniform nearest-neighbor coherent coupling is solved analytically and investigated numerically. Above a critical occupation threshold the condensates undergo spontaneous spin bifurcation (becoming magnetized) forming a binary chain of spin-up or spin-down states. Minimization of the bifurcation threshold determines the magnetic order as a function of the coupling strength. This allows control of multiple magnetic orders via adiabatic (slow ramping of) pumping. In addition to ferromagnetic and antiferromagnetic ordered states we show the formation of a paired-spin ordered state |···↑↑↓↓···⟩ as a consequence of the phase degree of freedom between condensates.Peer reviewe

St Andrews Research Repository

H. Sigurdsson

A. J. Ramsay

H. Ohadi

Y. G. Rubo

T. C. H. Liew

J. J. Baumberg

I. A. Shelykh

Crossref

An infinite chain of driven-dissipative condensate spins with uniform nearest-neighbor coherent coupling is solved analytically and investigated numerically. Above a critical occupation threshold the condensates undergo spontaneous spin bifurcation (becoming magnetized) forming a binary chain of spin-up or spin-down states. Minimization of the bifurcation threshold determines the magnetic order as a function of the coupling strength. This allows control of multiple magnetic orders via adiabatic (slow ramping of) pumping. In addition to ferromagnetic and antiferromagnetic ordered states we show the formation of a paired-spin ordered state|⋯↑↑↓↓⋯⟩ as a consequence of the phase degree of freedom between condensates.MOE (Min. of Education, S’pore)Published versio

Liew, Timothy Chi Hin

DR-NTU (Digital Repository of NTU)

An infinite chain of driven-dissipative condensate spins with uniform nearest-neighbor coherent coupling is solved analytically and investigated numerically. Above a critical occupation threshold the condensates undergo spontaneous spin bifurcation (becoming magnetized) forming a binary chain of spin-up or spin-down states. Minimization of the bifurcation threshold determines the magnetic order as a function of the coupling strength. This allows control of multiple magnetic orders via adiabatic (slow ramping of) pumping. In addition to ferromagnetic and antiferromagnetic ordered states we show the formation of a paired-spin ordered state | . . . ↑↑↓↓ . . .  as a consequence of the phase degree of freedom between condensates. ©2017 American Physical Society2

IBS Publications Repository

Digital Repository - Nanyang Technological University

https://research-repository.st-andrews.ac.uk/bitstream/handle/10023/12678/Sigurdsson_2017_Driven_dissipative_PhysRevB_AAM.pdf?sequence=1&isAllowed=y

Driven-dissipative spin chain model based on exciton-polariton condensates

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University of St. Andrews - Pure

University of St. Andrews - Pure

St Andrews Research Repository

Crossref

DR-NTU (Digital Repository of NTU)

IBS Publications Repository

Digital Repository - Nanyang Technological University