about
Environmental statistics and optimal regulationTime step rescaling recovers continuous-time dynamical properties for discrete-time Langevin integration of nonequilibrium systems.Optimal control of transitions between nonequilibrium steady statesE pluribus unum, no more: from one crystal, many conformations.Transcription factor competition allows embryonic stem cells to distinguish authentic signals from noiseOptical measurement of mechanical forces inside short DNA loops.Probing the conformational distributions of subpersistence length DNA.Consequences of local inter-strand dehybridization for large-amplitude bending fluctuations of double-stranded DNA.Thermodynamic geometry of minimum-dissipation driven barrier crossing.Controlling DNA capture and propagation through artificial nanopores.Allocating and Splitting Free Energy to Maximize Molecular Machine Flux.Allocating dissipation across a molecular machine cycle to maximize flux.Effective dissipation: Breaking time-reversal symmetry in driven microscopic energy transmission.Quantifying Configuration-Sampling Error in Langevin Simulations of Complex Molecular SystemsNear-equilibrium measurements of nonequilibrium free energyThermodynamic metrics and optimal pathsOptimal control of rotary motorsBreaking time-reversal symmetry for ratchet models of molecular machinesUsing a system's equilibrium behavior to reduce its energy dissipation in nonequilibrium processesTheory of Nonequilibrium Free Energy Transduction by Molecular Machines
P50
Q28543209-808F95D6-8605-45C6-83CA-26A3403B1835Q30407945-49CC99DC-2C76-4643-A300-FC575FB3022DQ35080044-4D416318-CBF5-4026-9795-3066E033E089Q35223123-311D53BE-86CD-4F7F-9994-F21F734BD6EDQ36077800-EB3AD944-9823-4FBE-82FF-4498161B6DF8Q36481391-7667F901-CF7C-4F48-A668-2E2A82CAE01FQ37359445-0B6DC8BD-D4CF-4DB8-A311-E2D8F4940815Q43428482-480C3D22-D2F9-45FD-AD7E-33383D8391B2Q45957376-B0856504-45D3-4154-A0E3-6814B44B9572Q46827587-C1F6CB57-1A6F-4A6C-B13E-8660C6EEC832Q47172609-D3B60885-2012-4702-8A8E-DE64982BACDDQ47179660-39709C7C-2FBF-44B5-9F52-67AB27E90EEEQ51772219-777E6D14-CB72-40D4-B2FA-7F3A6C76B7A2Q58574706-48091EA1-373C-4A84-889C-318AAB8486FAQ84134730-6FA374D0-6E33-4CC6-A990-9EBB0BE999DCQ87357634-1761B60D-E1B2-4497-B6E2-46A7D110FE37Q91706853-438C3C86-EB01-4EA7-A786-B7B842D8758BQ92080615-C7F3C43D-EE2C-4801-891B-7EA19F919C3BQ92340038-19814F65-1B56-4D68-B43D-E7830E71E4CDQ92613223-44EEB74F-7874-44DC-8154-1B6252FE5FBA
P50
description
researcher
@en
wetenschapper
@nl
հետազոտող
@hy
name
David A Sivak
@ast
David A Sivak
@en
David A Sivak
@es
David A Sivak
@nl
type
label
David A Sivak
@ast
David A Sivak
@en
David A Sivak
@es
David A Sivak
@nl
prefLabel
David A Sivak
@ast
David A Sivak
@en
David A Sivak
@es
David A Sivak
@nl
P106
P1153
22235855500
P21
P31
P496
0000-0003-4815-4722