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Thermodynamicoriginofquantumtime-Energyuncertaintyrelation

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Request PDF | A possible thermodynamic origin of the space-time minimum length | In this paper, by applying the generalized uncertainty principle (GUP) at the final stage

Restart uncertainty relation for monitored quantum dynamics

Temperature uncertainty of a system in canonical ensemble is inversely determined by its energy fluctuation, which is known as the temperature-energy uncertainty Department of Information and Communication Engineering, Graduate School of Information Science and Technology, The University of Tokyo, Tokyo 113-8656, Japan (Dated:

Relative fluctuations and the thermodynamic uncertainty relation ratio ...

The Heisenberg uncertainty principle states that it is impossible to simultaneously measure the x-components of position and of momentum of a particle with an arbitrarily high precision. The Request PDF | Time-information uncertainty relations in thermodynamics | Physical systems powering motion and creating structure in a fixed amount of time dissipate energy and Download scientific diagram | (a) Current, (b) noise, and (c) the thermodynamic uncertainty relation (35) for the additive model (39), Ta = 2, αR = αL = 0.2, ω0/Ta = 4 (dashed), 0.5 (dotted

Thermodynamicoriginofquantumtime-energyuncertaintyrelation Thermodynamic origin of quantum time-energy uncertainty relation In classical and quantum thermodynamics, a trade-off between speed, precision and cost is of relevance for problems in open quantum dynamics and Bohr and Heisenberg suggested that the thermodynamical quantities of temperature and energy are complementary in the same way as position and momentum in quantum mechanics.

In the domain of nondissipative unitary Hamiltonian dynamics, the well-known Mandelstam–Tamm–Messiah time–energy uncertainty relation τ F Δ H ≥ ℏ / 2 provides a The minimal bound of the thermodynamic uncertainty relation (TUR) is modulated from that of the classical counterpart (? m i n = 2) when a quantumness is present in the

The time-energy uncertainty relation ΔT ΔE ≥ 1/2ħ (3.1) has been a controversial issue since the advent of quantum theory, with respect to appropriate formalisation, validity and

  • Time–information uncertainty relations in thermodynamics
  • The Time-Energy Uncertainty Relation
  • A possible thermodynamic origin of the space-time minimum length
  • Time-information uncertainty relations in thermodynamics

Thermodynamic tradeoff relations quantify the fundamental concept of „no free lunch“ in the physical world, suggesting that faster and more precise physical processes come Download Citation | Computation time and thermodynamic uncertainty relation of Brownian circuits | We analyze a token-based Brownian circuit in which Brownian particles,

Time-information uncertainty relations in thermodynamics

ohr suggested that there should exist a form of com-plementarity between temperature and energy in thermo-Bdynamics similar to that of position and momentum in quantum theory1. His

A new, unified thermodynamic theory reveals an intimate relationship between optimal transport distances and stochastic and quantum thermodynamics in discrete-state invariant under time reversal Time–information uncertainty relations in thermodynamics Schuyler B. Nicholson1,2, Luis Pedro García-Pintos3,4, Adolfo del Campo3,5,6 and Jason R. Green 1,2,3

We use the fundamental nonequilibrium steady-state fluctuation symmetry and derive a condition on the validity of the thermodynamic uncertainty relation (TUR) in thermal

Abstract Henry scores a surprise win over Eve thanks to his quantum rocket that is powered by a quantum-chargeable battery. This gadget is subject to the time–energy uncertainty relation that A time–information uncertainty relation in thermodynamics has been derived, analogous to the time–energy uncertainty relation in quantum mechanics, imposing limits on

The theory of thermodynamics was a driving force in the industrial revolution. By enabling the development of devices such as steam engines and refrigerators, it had a tremendous impact. This study presents a novel derivation of Heisenberg’s uncertainty principle, demonstrating its natural emergence from the Planck lattice description of quantum space-time. Moreover,

Physical systems powering motion and creating structure in a fixed amount of time dissipate energy and produce entropy. Whether living, synthetic or engineered, systems performing

Thermodynamic origin of quantum time–energy uncertainty relation Zacharias Roupas Journal of Statistical Mechanics: Theory and Experiment, 2021 The problem of time is a notable obstacle Download Citation | Arbitrary-time thermodynamic uncertainty relation from fluctuation theorem | The thermodynamic uncertainty relation (TUR) provides a universal The thermodynamic uncertainty relation (TUR), a trade-off relation between thermodynamic cost (entropy production) and precision (fluctuations), is expected to hold in nanoscale electronic

Request PDF | A violation of the uncertainty principle implies a violation of the second law of thermodynamics | Uncertainty relations state that there exist certain PDF | On Dec 12, 2023, Yoshihiko Hasegawa published Quantum Thermodynamic Uncertainty Relation under Feedback Control | Find, read and cite all the research you need on Thermodynamic uncertainty relations quantify how the signal-to-noise ratio of a given observable is constrained by dissipation. Fluctuation relations generalize the second law

Thermodynamic uncertainty relations (TURs) represent one of the few broad-based and fundamental relations in our toolbox for tackling the

Thermodynamicoriginofquantumtime-energyuncertaintyrelation Thermodynamic origin of quantum time-energy uncertainty relation It is valid for Markov chains and for periodically driven systems under the extra assumption of time-symmetric driving (i.e., the driving is invariant under time reversal). is the The thermodynamic uncertainty relation, abbreviated as TUR, concerns a current fluctuation around the nonequilibrium steady state.

Quantumness and thermodynamic uncertainty relation of the finite-time Otto cycle