ライフサイエンスコーパス: dissipation

1 earity, low-voltage switching, and low power dissipation.

2 sed on ultrafast electronic response and low dissipation.

3 control domain wall dynamics with low-power dissipation.

4 tion processes that lead to efficient energy dissipation.

5 g context of dynamic oscillations and energy dissipation.

6 structure may be the actual source of energy dissipation.

7 dditional losses exist in the form of in-use dissipation.

8 core of the PBS affords almost total energy dissipation.

9 a perfect thermal diffuser with maximal heat dissipation.

10 romising for applications in chip-level heat dissipation.

11 ibrium protocols biased toward a low average dissipation.

12 onic and optoelectronic devices with reduced dissipation.

13 kin blood vessels and sweat glands) for heat dissipation.

14 , switching functionality, and worsens power dissipation.

15 volume of material involved in impact energy dissipation.

16 issues related to power consumption and heat dissipation.

17 drial membrane and consequent massive energy dissipation.

18 ans of efficient product separation and heat dissipation.

19 pling, and efficiently enhancing the thermal dissipation.

20 es in response to constraints on the average dissipation.

21 tenna and to induce permanent thermal energy dissipation.

22 inability to clear ACs, and, eventually, MZM dissipation.

23 ar if the systems exhibit sizable amounts of dissipation.

24 arm in photoactivation and excitation energy dissipation.

25 ion has been paid to the mechanism of energy dissipation.

26 ocesses of vibrational relaxation and energy dissipation.

27 is is at least partly due to resistive power dissipation.

28 It governs transport properties, wear and dissipation.

29 ertz generation and cause additional thermal dissipation.

30 zation for effective load bearing and energy dissipation.

31 n centers with minimal losses due to thermal dissipation.

32 ions, such as thermal insulation and thermal dissipation.

33 nt transitions differ significantly in their dissipation.

34 to gigahertz and usually have very low power dissipation.

35 spin-based logic scalable to ultralow energy dissipation.

36 ased on the adiabatic-connection fluctuation-dissipation (ACFD) theorem (namely the Rutgers-Chalmers

37 How does limiting dissipation affect the kinetics of high-precision respon

38 In-use dissipation affects fewer than a dozen elements (includi

39 both experimental parameter fluctuations and dissipations along dark states.

40 The results show that minimizing in-use dissipation and constraints to metal recycling have the

41 Understanding and controlling energy dissipation and defect dynamics by altering alloy comple

42 Our results document the dissipation and dissemination off farm of ARGs under Fin

43 on simultaneous quartz crystal microbalance-dissipation and ellipsometry measurements in order to in

44 while gaining recoverable hysteretic energy dissipation and maintaining its original extensibility.

45 mesoscale turbulence leads to elevated local dissipation and mixing outside the oceanic boundary laye

46 at the inevitable cost of significant energy dissipation and reduced device efficiency.

47 eld trials were performed to investigate the dissipation and residue levels of hexythiazox in strawbe

48 and thermotherapic treatments where thermal dissipation and transport processes are crucial.

49 g solution to significantly reduce the power dissipation and variability beyond current CMOS technolo

50 s-density scaling (n 1.1), enhanced energy dissipation, and extremely large material recoverability

51 local remodeling tunes stress production and dissipation, and how this in turn shapes long range flow

52 nstrate that these intrinsic forms of phonon dissipation are greatly reduced (by >90%) by nonlinear s

53 performances in terms of power and heat-load dissipation are reported and their response to a nonline

54 ger scale, and the pathways of energy toward dissipation are still in question.

55 nd thereby decrease the likelihood of energy dissipation associated with conventional hydrogen bonds.

56 Added stiffness decreased energy dissipation at the foot (p < 0.001) and increased the ge

57 photochemical centres by increasing thermal dissipation at the level of antennae.

58 centers can be obtained by excitation energy dissipation at the level of the phycobilisome (PBS), the

59 in modern electronics and enables control of dissipation at the nanoscale.

60 ce at which energy flux into photoprotective dissipation became greater than ETR was observed.

61 system is usually not formulated in terms of dissipation because energy dissipation is not a readily

62 artments in series while circumventing power dissipation before contact.

63 Dissipation behavior followed first order kinetics in bo

64 A field trial to assess chlorfenapyr dissipation behavior was carried out.

65 This odd viscosity does not lead to energy dissipation, but gives rise to a flow perpendicular to a

66 x reactions face a danger of wasteful energy dissipation by diversion of the productive electron tran

67 elop a physical model to estimate the energy dissipation by the defects and predict the transition fr

68 mpact resistance is attributed to the energy dissipation by the rotating anisotropic layers.

69 ind the temperature dependence of the energy dissipation can be explained when accounting for both in

70 bestows the networks with remarkable energy dissipation capability, but also facile complete self-he

71 sed bending resistance, and decreased energy dissipation capacity.

72 dissipation (QCM-D) to obtain frequency and dissipation changes during adsorption from the liquid ph

73 state, which may provide a permanent energy dissipation channel.

74 ion of electrical, thermoelectric and energy dissipation characteristics of molecular junctions.

75 ere is a large set of protocols with average dissipation close to the optimal value, which we argue i

76 d by clouds or other leaves, this protective dissipation continues for many minutes and reduces photo

77 overned by the vortex-stretching and viscous dissipation contributions, similar to non-reacting flows

78 ergo creation, compositional maturation, and dissipation, coupled by molecular recycling along retrog

79 of calcium sulfate was investigated using a dissipation crystal quartz microbalance (QCM-D) together

80 each use to one of three categories: in-use dissipation, currently unrecyclable when discarded, or p

81 The results suggest that the hexythiazox dissipation curves followed the first-order kinetic and

82 Dissipation curves of all studied pesticides fitted to a

83 and experimental data, of both frequency and dissipation data for the first four harmonics, shows goo

84 The dissipation/degradation of the pesticides dimethoate, te

85 the system studied, we find no evidence for dissipation-dependent behaviour, nor for any CC in the s

86 vide opportunities to realize high-speed low-dissipation devices.

87 ging of very low intensity, nanoscale energy dissipation down to the fundamental Landauer limit of 40

88 Here we show that tidal dissipation due to lunar obliquity was an important effe

89 dvances enable the observation of changes in dissipation due to single-electron charging of individua

90 Our findings show that plastic energy dissipation during cell deformation is tightly linked to

91 reatment increased gastrocnemius muscle heat dissipation during controlled activity, as well as in th

92 ing epithelia may be a consequence of stress dissipation during organ growth.

93 essing and provides a new avenue towards low-dissipation electronics and topological quantum systems.

94 Long-range crack energy dissipation enabled by 3D interlocking structure is cons

95 Here, we demonstrate a novel dissipation engineering strategy that can support stable

96 trochemical quartz crystal microbalance with dissipation (EQCM-D) monitoring, a new method of charact

97 s enables more efficient diffusive-like heat dissipation, even from nanoscale heat sources much small

98 ctral gap and nullity in terms of the energy dissipation exponent of the drainage networks.

99 The dissipation factors due to domain wall motion, however,

100 ices controlled by pure spin currents: a low-dissipation flow of electronic spins with no net charge

101 sembly is also a stepwise process with shell dissipation followed by core clearance.

102 It is this feature of waste heat dissipation following the input of energy that drives al

103 ovides a new and significant route to energy dissipation for geostrophic flows.

104 ified by the flux is the cause of the energy dissipation for initiating and sustaining the replicatio

105 Using the fluctuation-dissipation framework, we find, in contrast to the case

106 ere we report that transient NIR exposure is dissipation-free and has no adverse effect on the viabil

107 is dark state is generally regarded as being dissipation-free because it is a superposition of two lo

108 self-arresting hypervortices recovering the dissipation-free state at high fields and temperatures m

109 ain a formidable task, the discovery of this dissipation-free, transient NIR photonic approach for br

110 rove experimentally that the acoustic ratio (dissipation/frequency) is directly related to the molecu

111 throsine shows a high rate of thermal energy dissipation from the aggregated forms of the complex and

112 Although dissipation half-lives of the parent compound are direct

113 Strong dissipation has a negative impact on sensitivity, and se

114 interfacial tension coupled with free energy dissipation has been used to give an energetic reasoning

115 of materials, individual mediators of energy dissipation have so far eluded direct observation.

116 e competition between energy consumption and dissipation imposes stringent physical constraints on th

117 shows increased body temperature and energy dissipation in association with enhanced brown adipose t

118 , are essential for triggering excess energy dissipation in chloroplasts of vascular plants and green

119 mportant for reducing energy consumption and dissipation in electronic devices, lab-on-a-chip platfor

120 1 (LHCSR1) protein, which is responsible for dissipation in green algae and moss.

121 Turbulent dissipation in long-lived slots helps maintain the ocean

122 and unveil the mechanism of enhanced energy dissipation in nanoscale, whereas such effect would beco

123 omposites are attributed to efficient energy dissipation in the interfacial portion of the organic ph

124 Thus, constraints in energy dissipation, in addition to negatively affecting ligand

125 our measurements of changes in frequency and dissipation induced by nanocrystals using a framework de

126 o gain insights into the relevance of energy dissipation into electronic degrees of freedom in surfac

127 for coherent atom-atom interactions with low dissipation into the guided mode.

128 Energy dissipation is a fundamental process governing the dynam

129 cterization it is possible to infer that the dissipation is a long ranged phenomenon.

130 Photo-induced non-radiative energy dissipation is a potential pathway to induce structural-

131 Energy dissipation is an unavoidable phenomenon of physical sys

132 nt influence of the solvent on the MW energy dissipation is avoided.

133 nd magnetometers, we show that plasma energy dissipation is controlled by field-aligned currents (FAC

134 ders with respect to the mechanism of energy dissipation is given by using only two dimensionless par

135 We propose that efficient mechanical energy dissipation is key for sustained bacterial attachment ag

136 lated in terms of dissipation because energy dissipation is not a readily measurable quantity on the

137 s findings-the flux-maximizing allocation of dissipation is not even.

138 reas classically simulated rotational-energy dissipation is shown to be distinctly faster than experi

139 Heat dissipation is then governed by tunnel loss, which becom

140 electronic stopping the two avenues in which dissipation is usually treated.

141 The precise mechanism of OCP energy dissipation is yet to be fully determined, and one quest

142 Their dissipation kinetics and residual levels were determined

143 Heat dissipation limits are probably not a phenomenon restric

144 abroadband light absorption and high plasmon dissipation loss.

145 Turbulent dissipation makes testable predictions for the final fly

146 They also reveal a dissipation mechanism attributable to resonant localized

147 motions most likely constitutes the dominant dissipation mechanism for the observed eddies.

148 In this paper we propose an energy dissipation mechanism that is completely reliant on chan

149 nking moieties are able to undergo an energy dissipation mechanism through breakage of bonds when str

150 c-scale phonon emitters provide the dominant dissipation mechanism.

151 e photosynthesis is to engineer these energy dissipation mechanisms (measured as non-photochemical qu

152 The main energy dissipation mechanisms available upon impact loading are

153 rbed energy usage, as photoprotective energy dissipation mechanisms can take minutes to hours to full

154 ochondrial swelling, transmembrane potential dissipation, membrane blebbing, phosphatidylserine expos

155 , since it could significantly reduce energy dissipation, might enable beyond Von Neumann computing,

156 microbalance with (QCM-D) and without energy dissipation monitoring (QCM).

157 igated by a quartz crystal microbalance with dissipation monitoring (QCM-D) and fluorescence scanning

158 ons, namely quartz crystal microbalance with dissipation monitoring (QCM-D) and microscale thermophor

159 sisted on a quartz crystal microbalance with dissipation monitoring (QCM-D) where TRIM21 and TROVE2 a

160 Using quartz crystal microbalance with dissipation monitoring (QCM-D), we determine the affinit

161 itu using a quartz crystal microbalance with dissipation monitoring (QCM-D), which enabled the label-

162 sis using a Quartz Crystal Microbalance with Dissipation monitoring (QCM-D).

163 along with quartz crystal microbalance with dissipation monitoring and computer simulations to quant

164 s-sensitive quartz crystal microbalance with dissipation monitoring supplied by an electrochemical mo

165 y employing quartz crystal microbalance with dissipation monitoring, we were able to track membrane a

166 cterized by quartz crystal microbalance with dissipation monitoring, while the residual valency of im

167 lms using a quartz-crystal microbalance with dissipation monitoring.

168 ngth, using quartz crystal microbalance with dissipation monitoring.

169 w metabolic energy is used to compensate the dissipation, much less attention has been paid to the me

170 rating much faster and with manageable power dissipation, networks based on circuits combining comple

171 essential for photoprotective excess energy dissipation (non-photochemical quenching, NPQ) in the mo

172 tasurface strongly impacts the physics, with dissipation occurring primarily in the gold, whereas the

173 Because such dissipation occurs on a nanoscale, this effect has never

174 n the intricate details of how and where the dissipation occurs.

175 tible power supply voltage of 5 V with power dissipation of 11 microW, and attaining a voltage gain a

176 ated modulus of 1.19 GPa and specific energy dissipation of 325.5 kJ/kg, surpassing previously report

177 For both cases, only the upper bound of the dissipation of a single molecule has been established as

178 Remarkably, dissipation of a single SF within a monolayer induces cy

179 have come from models invoking the turbulent dissipation of Alfven waves.

180 which we demonstrate through the rapid heat dissipation of an elastomer-mounted extreme high-power L

181 c work of adhesion and in significant energy dissipation of bulk hydrogel during detachment, which le

182 is essential for adaptive thermogenesis and dissipation of caloric excess through the activity of un

183 antaneous chemical equilibrium, and that the dissipation of carbonate rocks solely depends on flow an

184 d on minimal requirements for production and dissipation of contractile stress: Asymmetric filament c

185 Finally, the dissipation of effects over time for many outcomes highl

186 f AOB, but possibly important as a route for dissipation of electrons at high ammonium concentration.

187 tion of these states inevitably requires the dissipation of energy in the form of waste heat.

188 Steady dissipation of energy is a crucial property that disting

189 he connecting silver particle with almost no dissipation of energy.

190 The dissipation of excess absorbed light energy, a process t

191 ble, photoactive protein involved in thermal dissipation of excess energy absorbed by the light-harve

192 "Protein quake" denotes the dissipation of excess energy across a protein, in respon

193 protection from intense illumination is the dissipation of excess excitation energy as heat, a proce

194 sustains cell viability while promoting the dissipation of excess excitation energy through quenchin

195 Dissipation of excess excitation energy, mediated by pho

196 d acute coronary syndrome patients, to allow dissipation of its antiplatelet effects.

197 rimental turnover, the calculated frictional dissipation of less than k(B)T per rotation is consisten

198 nt nonphotochemical quenching), which allows dissipation of light energy as heat.

199 Although magnetohydrodynamic (MHD) modes and dissipation of magnetic energy contribute to heating and

200 field and current, which together cause the dissipation of magnetic energy; and (iii) identified the

201 rmal energy input, so its presence indicates dissipation of mechanical energy or strong ultraviolet i

202 ws a surprising potential for absorption and dissipation of mechanical shock.

203 sources of variability and investigating the dissipation of mechanical work that occurs with structur

204 suggest that ion transport by MSL1 leads to dissipation of mitochondrial membrane potential when it

205 can be used to observe electron-beam induced dissipation of nanobubble encapsulated perfluorocarbon g

206 We characterize how the production and dissipation of network stress depend, individually, on c

207 The weak dissipation of nitrogen-vacancy (NV) sensors in room tem

208 After three months of storage, the dissipation of residues ranged between 34% (pirimiphos-m

209 or amorphization), phase-stability, and heat-dissipation of rock-salt GeSbTe, which is crucial for it

210 MOFs may prove useful in the dissipation of shock wave energy through large structura

211 onication bath, and introduce energy via the dissipation of sonic waves.

212 Here we investigated the dissipation of the chiral herbicide S-metolachlor (SM) i

213 tle, and is related to non-radiative (Ohmic) dissipation of the constituent metamolecules.

214 n the alloy along with more localized energy dissipation of the displacement cascade may lead to enha

215 lates these currents and aurora and controls dissipation of the energy released in the ionosphere?

216 ium fluoride (DF) product that competes with dissipation of the energy to the solvent bath, despite s

217 nching (NPQ), a process that allows the safe dissipation of the excess energy as heat.

218 Instead, sorafenib induces rapid dissipation of the mitochondrial membrane potential (Del

219 chondrial Ca(2+) uptake was TRPV1-dependent, dissipation of the mitochondrial membrane potential, inh

220 transporter, thus enabling antiport without dissipation of the proton gradient.

221 Spectral analyses revealed a faster dissipation of the semi-diurnal component with respect t

222 ra with 13 Hz resolution at room temperature.Dissipation of the sensor is a limiting factor in metrol

223 In nanoscale metrology, dissipation of the sensor limits its performance.

224 the gas-giant cores must have formed before dissipation of the solar nebula, which likely occurred w

225 A field study was carried out on the dissipation of three insecticides and three fungicides d

226 nance of a constant helicity state after the dissipation of twist helicity by viscosity.

227 phere in a microwave cavity and engineer the dissipations of photons and magnons to create cavity mag

228 l and experimental evidence of the effect of dissipation on FPU cycles in a super wave tank, namely t

229 Here, we identify the dominant energy dissipation pathways in few-layer MoS2 nanoelectromechan

230 A transition in the dominant dissipation pathways occurs at T 110 K with relatively

231 Assisted by modeling, we found that the main dissipation pathways of SM at the plot scale were degrad

232 o-mechanical properties, however, the energy dissipation pathways that fundamentally limit the perfor

233 vity of 8 fN/Hz(1/2) that, despite multiple dissipation pathways, remains effectively constant over

234 the serrated teeth provide favorable charge dissipation points and thus fibers are preferentially fo

235 enhance PRP photodegradation and divert PRP dissipation processes away from the production of 34DCA,

236 door to direct thermal imaging of nanoscale dissipation processes in quantum matter.

237 dvected from the black hole and distorted by dissipation processes within the jet.

238 toughness, strength, elasticity, and energy dissipation properties.

239 n application, we sample the ensemble of low-dissipation protocols that invert the magnetization of a

240 this work, quartz crystal microbalance with dissipation (QCM)-based viscosity measurements were used

241 M-SBs using quartz crystal microbalance with dissipation (QCM-D) and fluorescence microscopy.

242 ility using quartz crystal microbalance with dissipation (QCM-D) measurements or an automated flow-th

243 By contrast, quartz crystal microbalance-dissipation (QCM-D) measurements performed with equivale

244 e (SPR) and quartz crystal microbalance with dissipation (QCM-D) measurements to maximize the increas

245 taneous LSPR and quartz crystal microbalance-dissipation (QCM-D) measurements.

246 s a conventional quartz crystal microbalance-dissipation (QCM-D) setup with a reflection-mode localiz

247 anoparticles on gold surfaces using QCM with dissipation (QCM-D) to obtain frequency and dissipation

248 ducted in a quartz crystal microbalance with dissipation (QCM-D).

249 y, namely ''Quartz Crystal Microbalance with Dissipation'' (QCM-D) has been applied, while the acoust

250 numerical simulations, I show that limiting dissipation qualitatively changes the kinetics in single

251 e to about one-half and increases the energy dissipation rate by 10 times that expected from the noni

252 h Pacific basin and 55% of turbulent kinetic dissipation rate in the thermocline, suggesting their do

253 Periodic vibration also increased the dissipation rate of four performance reference compounds

254 tions did not affect the initial deposit and dissipation rate.

255 udies have linked cell damage to high energy dissipation rates (EDR) and have predicted that for smal

256 The dissipation rates of both pesticides in green beans and

257 also found in the conversion, generation and dissipation rates of energies.

258 The positive trends in the dissipation rates of kinetic energies suggest that the e

259 air humidity and temperature, and pesticide dissipation rates were dependent on fruit type.

260 ameter increases in one millimeter pesticide dissipation rates were reduced in -0.033mgkg(-1)day(-1)

261 cide deposit in the fruits and change in the dissipation rates.

262 nd the bubble experiences these large energy dissipation rates.

263 oth isomers of either E2 or TB decreased the dissipation rates.

264 omputation of the nonequilibrium fluctuation-dissipation ratio for the 3D Edwards-Anderson Ising spin

265 e of dysfunctional photosynthesis and energy dissipation, reactive oxygen species (superoxide and hyd

266 celeration within the reconnection diffusion/dissipation region.

267 dissipation) signal is due completely to the dissipation related to the dithering of the cantilever i

268 must be taken in distinguishing between the dissipation related to the stretched molecule and the di

269 y of a protein is to violate the fluctuation-dissipation relation through nonergodic sampling of its

270 -dimensional (3D) structure, generation, and dissipation remains fragmentary due to lack of systemati

271 electronics that meets performance and power-dissipation requirements for a range of battery-powered

272 n curves) along with aPTT from frequency and dissipation shifts together in a single set of measureme

273 We conclude that the observed phase (dissipation) signal is due completely to the dissipation

274 agrangian dynamics for chemical systems with dissipation, so one may think of the model as physicoche

275 densities, paving the road towards ultralow-dissipation spintronic devices based on MIs.

276 h stage effects on pesticide when performing dissipation studies to define PHI.

277 It reduces the influence of dissipations such as atomic spontaneous emissions and ca

278 theoretical model that accounts for viscous dissipation, surface adhesion, line tension, the initial

279 on related to the stretched molecule and the dissipation that originates from the viscous damping of

280 In the presence of dissipation the relative phase of two condensates exhibi

281 ments with analysis based on the fluctuation-dissipation theorem (FDT) to characterize origins of act

282 chastic noise so that the second fluctuation-dissipation theorem is exactly satisfied.

283 mate formulae (derived using the fluctuation dissipation theorem).

284 mate formulae (derived using the fluctuation dissipation theorem).

285 detect a clear violation of the fluctuation dissipation theorem.

286 t CO2 uptake was highly transient with rapid dissipation through drought.

287 The latter amplifies energy dissipation through hysteresis.

288 Energy dissipation through interscapular brown adipose tissue (

289 antum error correction scheme that harnesses dissipation to stabilize a trapped-ion qubit.

290 alization and effectively alleviates thermal dissipation to the bulk water.

291 coupling before a slower vibrational energy dissipation to the solution environment.

292 ergy landscape, but also by selective energy dissipation to the substrate and entropic changes associ

293 The superballistic, low-dissipation transport is a generic feature of viscous el

294 ve states of fatty acid oxidation and energy dissipation versus a more dormant state.

295 Using a Quartz Crystal Microbalance with Dissipation, we were able to differentiate between molec

296 n spectra, radiometric power, effective heat dissipation with a passive heat sink, and energy convers

297 ontrol mechanisms underlying photoprotective dissipation, with implications for increasing biomass yi

298 Quantitative determination of dissipation within a signal manipulation cycle of only a

299 ng of occlusive feedbacks increase the total dissipation within the network by a factor of 11, showin

300 We observe that translational-energy dissipation within these liquids can be modelled through