Results 181 to 190 of about 1,022 (229)
Emergence of opposing arrows of time in open quantum systems. [PDF]
Sci RepGuff T, Shastry CU, Rocco A.
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InfoMat, EarlyView.Lead‐free inorganic halide perovskites enable resistive switching synaptic devices capable of mimicking biological learning and multimodal information processing, offering a promising platform for next‐generation neuromorphic computing and artificial intelligence hardware. Abstract Inorganic halide perovskites (IHPs) have emerged as promising materials
Subhasish Chanda +7 more
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Electric-field driven nuclear dynamics of liquids and solids from a multi-valued machine-learned dipolar model. [PDF]
NPJ Comput MaterStocco E, Carbogno C, Rossi M.
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Convergence and Properties of Intrinsic Bond Orbitals in Solids. [PDF]
J Chem Theory ComputWöckinger B, Rumpf A, Schäfer T.
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Developing Novel Lattice Mapping for Accurate and Efficient Charge Transport Modeling from Atomistic Morphology. [PDF]
J Chem Theory ComputChoi H +6 more
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Determining the N-Representability of a Reduced Density Matrix via Unitary Evolution and Stochastic Sampling. [PDF]
J Chem Theory ComputMassaccesi GE +8 more
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Hitsuda-Skorohod Quantum Stochastic Integrals in Terms of Quantum Stochastic Gradients(Micro-Macro Duality in Quantum Analysis)openaire
Symmetrized double quantum stochastic product integrals [PDF]
Journal of Mathematical Physics, 2000 A theory is developed of product integrals of the form ∏a<s<b ∏c<t<d(1+g[h] (ds,dt)). Here [a,b[ and [c,d[ are disjoint finite subintervals of R+, and g[h] is a formal power series in the indeterminate h whose constant term is zero and whose coefficients are elements of L⊗L, where ℒ is the space of basic differentials of a ...
Hudson, R. L., Pulmannová, S.
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, 1984 There have been many attempts to set up quantum analogues of the theory of stochastic processes and stochastic differential equations. I should mention the many papers of M. Lax [1] on “quantum noise”, and those of Senitzky [2]; these were inspired by the problem of describing a laser, and by quantum electronics.
R. F. Streater
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