Litcius/Paper detail

Low Power Coherent Ising Machine Based on Mechanical Kerr Nonlinearity

Yoonhyuk Rah, Youngjae Jeong, Sangyoon Han, Kyoungsik Yu

2023Physical Review Letters12 citationsDOI

Abstract

Finding a reliable Ising machine for solving nondeterministic polynomial-class problems has attracted great attention in recent years, where an authentic system can be expanded with polynomial-scaled resources to find the ground state Ising Hamiltonian. In this Letter, we propose an extremely low power optomechanical coherent Ising machine based on a new enhanced symmetry breaking mechanism and highly nonlinear mechanical Kerr effect. The mechanical movement of an optomechanical actuator induced by the optical gradient force greatly increases the nonlinearity by a few orders and significantly reduces the power threshold using conventional structures capable of fabrication via photonic integrated circuit platforms. With the simple but strong bifurcation mechanism and remarkably low power requirement, our optomechanical spin model opens a path for chip-scale integration of large-size Ising machine implementations with great stability.

Topics & Concepts

Ising modelPhysicsNonlinear systemSymmetry breakingHamiltonian (control theory)BifurcationStatistical physicsComputer scienceQuantum mechanicsMathematicsMathematical optimizationNeural Networks and Reservoir ComputingQuantum Computing Algorithms and ArchitectureQuantum Information and Cryptography