Konopik M, Friedenberger A, Kiesel N, Lutz E (2020)
Publication Type: Journal article
Publication year: 2020
Book Volume: 131
Journal Issue: 6
DOI: 10.1209/0295-5075/131/60004
Landauer's principle states that information erasure requires heat dissipation. While Landauer's original result focused on equilibrium memories, we here investigate the reset of information stored in a nonequilibrium state of a symmetric two-state memory. We derive a nonequilibrium generalization of the erasure principle and demonstrate that the corresponding bounds on heat and work may be reduced to zero. We further introduce reset protocols that harness energy and entropy of the initial preparation and so allow to reach these nonequilibrium bounds. We finally provide numerical simulations with realistic parameters of an optically levitated nanosphere memory that support these findings. Our results indicate that local dissipation-free information reset is possible away from equilibrium.
APA:
Konopik, M., Friedenberger, A., Kiesel, N., & Lutz, E. (2020). Nonequilibrium information erasure below kTln2. EPL - Europhysics Letters, 131(6). https://doi.org/10.1209/0295-5075/131/60004
MLA:
Konopik, M., et al. "Nonequilibrium information erasure below kTln2." EPL - Europhysics Letters 131.6 (2020).
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