ライフサイエンスコーパス: hydrodynamics

1 a phase diagram for air evolution regarding hydrodynamics.

2 ith oscillatory flows and only covers linear hydrodynamics.

3 ence anisotropy (FA) measurements of protein hydrodynamics.

4 that quantitatively match the predictions of hydrodynamics.

5 PVP can be described in detail by Newtonian hydrodynamics.

6 incompletely identified factors that govern hydrodynamics.

7 talyst concentration, irradiance levels, and hydrodynamics.

8 the liquid mass and thereby alters the drop hydrodynamics.

9 ondary eddy-slopes or Mississippi River (MR) hydrodynamics.

10 y particles as in standard smoothed particle hydrodynamics.

11 onal motion predicted by classical colloidal hydrodynamics.

12 aled their practical knowledge of the lake's hydrodynamics.

13 the diffusion of the analyte perturbs local hydrodynamics.

14 e, in contrast to predictions of macroscopic hydrodynamics.

15 ctions may have a role in modulating aqueous hydrodynamics.

16 of collisionless superfluid and collisional hydrodynamics.

17 and revealed the complex nature of the spray hydrodynamics.

18 and vortex strength to capture the detailed hydrodynamics.

19 ll, at odds with the prediction of continuum hydrodynamics.

20 order is often frustrated by the presence of hydrodynamics.

21 ounting for the effects of housing design on hydrodynamics.

22 iring curvature-sensing, and uninfluenced by hydrodynamics.

23 , in exploring many-body physics and quantum hydrodynamics.

24 r could be a platform for observing electron hydrodynamics.

25 ntial, temperature, and electrochemical cell hydrodynamics.

26 survival rate is strongly affected by river hydrodynamics.

27 s wind through its influence on near surface hydrodynamics.

28 interplay between biochemical processes and hydrodynamics.

29 tal momenta, a manifestation of relativistic hydrodynamics.

30 g new paths of manipulation in acoustics and hydrodynamics.

31 ll defining properties of Landau's two-fluid hydrodynamics.

32 l explains how water waves vary over time in hydrodynamics.

33 eon-Pempinelli model, which finds its use in hydrodynamics.

34 classical nucleation theory is coupled with hydrodynamics.

35 ved quantities corresponding to lowest-order hydrodynamics.

36 scale simulations for informing coarse-scale hydrodynamics.

37 self-formed lobes that scale with backwater hydrodynamics.

38 io calculations that predict wavelike phonon hydrodynamics.

39 he feedback mechanisms between reactions and hydrodynamics.

40 ations in CSF production, absorption, or its hydrodynamics.

41 upon suitable balance between magnetism and hydrodynamics.

42 phatic system of tunas functions in swimming hydrodynamics.

43 a particle-based method for resolving fluid hydrodynamics.

44 r parameters, material properties, and plume hydrodynamics.

45 er formation and its relation to laser plume hydrodynamics.

46 es in the plasma and their relation to plume hydrodynamics.

47 ecoupling of charge and heat currents within hydrodynamics.

48 mic components can be profoundly affected by hydrodynamics.

49 can lead to collective behavior described by hydrodynamics.

50 r spaces (PVS) and abnormalities in cerebral hydrodynamics.

51 rheotaxis behavior can be fully explained by hydrodynamics.

52 the process that gives rise to turbulence in hydrodynamics(1)-represents the mechanism by which a sma

53 underpin the ultrahigh mobility(1), electron hydrodynamics(2-4), superconductivity(5) and superfluidi

54 energy underlies central problems in quantum hydrodynamics(3), such as the decay of quantum turbulenc

55 The modes show strong signs of nonlinear hydrodynamics, a feature of the underlying equations of

56 Hydrodynamics accurately describe relativistic heavy-ion

57 Nevertheless, life history and hydrodynamics also covary with latitude-these also affec

58 Characterisation using biomolecular hydrodynamics (analytical ultracentrifugation and high p

59 uid by accounting for passive elasticity and hydrodynamics and active muscular force generation and p

60 ndation for fundamental studies of bacterial hydrodynamics and also provides a novel, to our knowledg

61 By using a continuum approach to early-time hydrodynamics and an FDEM approach to later-time solid m

62 (-1) from finite element modeling of the jet hydrodynamics and associated convective-diffusion equati

63 turbulent flows in photonic quantum fluids, hydrodynamics and Bose-Einstein condensates.

64 al implications for both cerebrospinal fluid hydrodynamics and brain waste clearance in craniosynosto

65 gy and astrophysics to biology, magneto- and hydrodynamics and condensed matter physics.

66 need for further studies on the link between hydrodynamics and connected wetlands.

67 undation for future studies that examine the hydrodynamics and control of underwater collectives in 3

68 The interaction between hydrodynamics and CWCs has been well studied at the Ming

69 tem employing two simple restraints to drive hydrodynamics and domain coupling: (1) both unitary vect

70 ble reef-fronted coasts and modify nearshore hydrodynamics and ecosystems.

71 A model based on continuum hydrodynamics and electrostatics was developed to predic

72 ling analysis based on the interplay between hydrodynamics and emulsification kinetics reveals that f

73 of these processes has a major impact on the hydrodynamics and energetics of this high-cost feeding s

74 ematical framework describing the effects of hydrodynamics and interaction forces on particle deposit

75 Moreover, the combined effects of hydrodynamics and interaction forces on particle deposit

76 s in present use and based on incompressible hydrodynamics and interaction with a rigid ocean floor o

77 M contractility and may affect aqueous humor hydrodynamics and intraocular pressure.

78 aring the tracer based decomposition between hydrodynamics and IT revealed similar coherent structure

79 mation by a theoretical analysis in terms of hydrodynamics and linear elasticity theory.

80 Quantification of body shapes and external hydrodynamics and model-based estimates of biomechanics

81 xplained by considering the coupling between hydrodynamics and muscle contraction characteristics, as

82 ergy from vortices, experimental data on the hydrodynamics and neural control of interactions between

83 Here, we have used a combination of hydrodynamics and NMR spectroscopy methodologies in comb

84 ntration in the Amazon River, and floodplain hydrodynamics and only weakly correlated with inundation

85 Our work combines active hydrodynamics and optimal control in a tractable and int

86 ing field of science focused on studying the hydrodynamics and properties of biphasic flows at the mi

87 reduces energy consumption, and improves the hydrodynamics and scalability of the system.

88 at our understanding of the coupling between hydrodynamics and sediment transport is able to account

89 omorphological feedbacks between vegetation, hydrodynamics and sediment transport.

90 We have previously characterized the hydrodynamics and solution assembly energetics of PR-B,

91 The results show that, in addition to flow hydrodynamics and solution chemistry, steric repulsion a

92 nary stability of matrix production with the hydrodynamics and spatial structure of the surrounding e

93 In mesoscale regions, where the impacts of hydrodynamics and steric interactions overlap, these mec

94 been made in the understanding of microbial hydrodynamics and surface interactions over the last dec

95 mical theory of boiling based on fluctuating hydrodynamics and the diffuse interface approach.

96 We apply hydrodynamics and the theory of the hydrophobic effect,

97 s, emphasizing potential links between local hydrodynamics and the upslope propagation of pelagic sub

98 ously unknown facet of the interplay between hydrodynamics and topology of active matter.

99 The coupled hydrodynamics and transport problem leading to the achie

100 chment location and rate depend on the local hydrodynamics and, as revealed by a mathematical model b

101 b-models that represent plant physiology and hydrodynamics, and also on groundwater flow models, whic

102 cluding electrostatics, van der Waals force, hydrodynamics, and Brownian motion.

103 achment/detachment process, geometry, elasto-hydrodynamics, and cup retraction speed.

104 ive systems, whose behaviour is dominated by hydrodynamics, and dry active matter where any flow is s

105 gmented aqueductal cerebrospinal fluid (CSF) hydrodynamics, and expansion of summated brain and CSF v

106 ciple of the embryo trap is based on passive hydrodynamics, and it does not require direct manipulati

107 adhesion that couples membrane deformations, hydrodynamics, and kinetics of membrane-cortex ligands.

108 redictive link between stream geomorphology, hydrodynamics, and N2O emissions.

109 confluence of muscle contractile properties, hydrodynamics, and the high speeds required likely impos

110 Our calculations show that the fluctuating hydrodynamics approach recovers the electrophoretic and

111 Our results established how drivers of brain hydrodynamics are affected by a specific loss of key neu

112 Solvent hydrodynamics are incorporated into simulations of the s

113 River hydrodynamics are influenced by numerous factors that tr

114 The solvent hydrodynamics are modeled with the stochastic rotation d

115 and current models predicting fine sediment hydrodynamics are not efficient.

116 directly delineated the change of transport hydrodynamics as a result of fluid-phase occupancy.

117 [Formula: see text] but governed by electron hydrodynamics at elevated temperatures.

118 is activated by elongation of VWF by altered hydrodynamics at sites of hemostasis.

119 perexponential RPs were likely caused by the hydrodynamics at the column inlet which produced a conce

120 d, optimizing fouling mitigation strategies, hydrodynamics at the membrane surface, and membrane modu

121 g adsorption in kerogen and the breakdown of hydrodynamics at the nanoscale, which contradict the ass

122 We rationalize the hydrodynamics at the origin of this previously unknown p

123 Using IL-21-transgenic mice and hydrodynamics-based gene delivery of IL-21 plasmid DNA i

124 ng plasmid DNA encoding murine IL-21 using a hydrodynamics-based gene delivery technique.

125 , we delivered human HGF gene into mice by a hydrodynamics-based in vivo gene transfection approach u

126 llar architectures approximately follows the hydrodynamics-based predictions developed for simple mon

127 rate that transfer of the FGF21 gene using a hydrodynamics-based procedure increased mRNA levels of F

128 Therefore, this study sheds light on a hydrodynamics-based protocol for safe high diving and an

129 injected into the mouse tail vein using the hydrodynamics-based transfection procedure of F.

130 biofilms modifies porous media topology and hydrodynamics by clogging pores and consequently solutes

131 The model numerically resolves soil-plant hydrodynamics by coupling them to leaf-level gas exchang

132 our experimental results against generalized hydrodynamics calculations.

133 n turn, suggest a mechanism for how and when hydrodynamics can lead to a breakdown of the ubiquitous

134 s, and game theory to study how porous media hydrodynamics can mediate competition between bacterial

135 Although viscous hydrodynamics can predict swimming speed in fluids such

136 Our work reveals that hydrodynamics can profoundly affect how bacteria compete

137 At two sites fine-scale hydrodynamics caused increased variability in the carbon

138 at the estimated parameters can be used in a hydrodynamics code to obtain density fields, shocks, and

139 ld foils was modeled with the RAGE radiation-hydrodynamics code, and the average surface expansion sp

140 d in distinctly different fields of science (hydrodynamics, combustion and crystal growth) and this h

141 Storm-induced ocean hydrodynamics conditions were generated using FVCOM.

142 determined that physical structure and local hydrodynamics control L. pneumophila adhesion to and det

143 nteraction between reef morphology, near-bed hydrodynamics, coral growth, and (food) particle transpo

144 Intracranial volumetry and aqueductal CSF hydrodynamics (CSF peak-to-peak velocity amplitude and a

145 Using the Paleo Hydrodynamics Data Assimilation product (PHYDA), we find

146 nt (WPG), based on the Last Millennium Paleo Hydrodynamics Data Assimilation.

147 evaporation times, we find that collisional hydrodynamics does not provide a satisfactory explanatio

148 for typical physiological conditions vesicle hydrodynamics driven by a fluid flow may render the memb

149 iciency (including both receptor binding and hydrodynamics effects) for equal-sized platelets with 50

150 Strikingly, we find that electron hydrodynamics eliminates the bulk Landauer-Sharvin resis

151 ting the self-consistency of the fluctuating hydrodynamics equations.

152 hard driving regime where singular diffusion hydrodynamics fails due to fluctuations and give an expl

153 e used a dynamic vegetation model with plant hydrodynamics (FATES-HYDRO) to simulate the stand-level

154 In conventional-flow cytometers, hydrodynamics focus particles to the center of a flow st

155 llustrates the importance of confluence zone hydrodynamics for fates and pathways of pollutants throu

156 n a superfluid can be described by classical hydrodynamics for small flow velocity, but above a criti

157 In the present paper, we dissect the role of hydrodynamics for the analytically tractable case of sti

158 that rather than chemically detecting prey, hydrodynamics forces BV into regions high in prey densit

159 ng the weakly compressible smoothed particle hydrodynamics formulation with extended parametric and f

160 e use a recently extended "Smoothed Particle Hydrodynamics" formulation to examine potential mechanis

161 Visualizing swallowing hydrodynamics from multiple orientations facilitates det

162 It involves elasticity-enhanced hydrodynamics generating "self-sealing" and high suction

163 recently proposed theory called generalized hydrodynamics (GHD) promises to efficiently accomplish s

164 phology: for homogeneous meshworks, nonlocal hydrodynamics gives only a small correction to the visco

165 of elastic network model and smooth-particle hydrodynamics has been employed to describe the propulsi

166 Although various aspects of electron hydrodynamics have been revealed in recent experiments(2

167 several alternative explanations, a coastal hydrodynamics hypothesis, reflecting mesoscale (tens to

168 he absence of any surface interactions, drop hydrodynamics imposes a minimum contact time that was co

169 The electrokinetics and hydrodynamics in a hybrid microfluidic/nanofluidic pore

170 ings underscore the practicality of electron hydrodynamics in designing ultra-fast THz sensors and el

171 f flagellar deformation and the influence of hydrodynamics in determining the shape of deformations a

172 ems is conducted by the classical methods of hydrodynamics in different solvents, such as ethanol and

173 highlight the importance of beach porewater hydrodynamics in generating unique hypersaline sediment

174 Our work enables the investigation of hydrodynamics in many-body quantum spin systems.

175 PC-MRI is widely used to evaluate CSF hydrodynamics in normal pressure hydrocephalus (NPH), Ch

176 dered ideal model systems to explore quantum hydrodynamics in self-contained, isolated superfluids.

177 strates the anomalous landscape for electron hydrodynamics in systems beyond graphene, and presents e

178 Our study highlights the important role of hydrodynamics in the behavior of small undulating swimme

179 , highlighting the importance of considering hydrodynamics in the design of fast-scanning probes.

180 oxygenation has declined, reflecting altered hydrodynamics in the shallowing lake.

181 interactions is predicted to obey universal hydrodynamics, in which the shear viscosity and other tr

182 s, which mimics many aspects of conventional hydrodynamics including vortices, opens new possibilitie

183 ization, within the framework of generalized hydrodynamics, including diffusive corrections.

184 del in order to demonstrate how the observed hydrodynamics influence otolith assembly.

185 This demonstrates that hydrodynamics influence species interaction and evolutio

186 Hydrodynamics influenced capture efficiency predominantl

187 mic force dipoles shows that steric effects, hydrodynamics interactions, and local alignments all hav

188 on-dominant jumping robot, we elucidated the hydrodynamics involved and applied them to develop a bio

189 A model of active nematic hydrodynamics is able to describe several statistical fe

190 of the otolith and we provide evidence that hydrodynamics is actively involved in controlling otolit

191 Moore, Nonlinearity 4, 199] asked if hydrodynamics is capable of performing computations.

192 Understanding dense matter hydrodynamics is critical for predicting plasma behavior

193 , perhaps, current understanding of membrane hydrodynamics is imperfect.

194 An analogy with hydrodynamics is pointed out.

195 continuum model, which couples structure and hydrodynamics, is able to capture the annihilation and m

196 t equations describing chemical kinetics and hydrodynamics may be nonlinear in concentrations.

197 ical client protein through a combination of hydrodynamics measurements, methyl-transverse relaxation

198 cs simulation based on the smoothed particle hydrodynamics method (SPH) with the 3D reconstructured d

199 d with microfluidics pumped by redox-magneto-hydrodynamics (MHD) to take advantage of the magnet (0.5

200 System (AMSR-E) and CWC predicted by a plant hydrodynamics model at four tropical sites in Brazil spa

201 Finally, we show that the fluctuating hydrodynamics model can be applied to study a broader ra

202 er, we present an incompressible fluctuating hydrodynamics model with a diffuse-interface formulation

203 cation process and a supporting slender-body hydrodynamics model.

204 olecular-dynamics (MD) simulation, continuum hydrodynamics modeling, and experimental diffusion measu

205 low exceeds values calculated from continuum hydrodynamics models by more than three orders of magnit

206 By analogy with the "Stokes problems" in hydrodynamics (motion of a viscous fluid induced by that

207 Even in the absence of forced hydrodynamics, natural convection limits the convection-

208 We quantified the kinematics and hydrodynamics of a diverse group of small swimming anima

209 is claim is supported through a study of the hydrodynamics of a large lake where qualitative data col

210 mental setup that simulates the intracranial hydrodynamics of a pneumocephalus patient during flight.

211 ne bending elasticity, a property related to hydrodynamics of cells and organelles.

212 id column from the bath, suggesting that the hydrodynamics of column formation are critical to unders

213 We confirm predictions based on hydrodynamics of fluid membranes, finding long-range cor

214 We study the hydrodynamics of fluids composed of self-spinning object

215 uch shapes may play an important role in the hydrodynamics of hyaluronan and its interaction with lip

216 s of doubly re-entrant pillars influence the hydrodynamics of impacting droplets.

217 The hydrodynamics of laminar flow in a microfluidic device h

218 6) the influence of epifaunal animals on the hydrodynamics of marine environments is not well underst

219 ays of pollutants through the widely unknown hydrodynamics of new reservoirs.

220 coarse grain the relevant biophysics and the hydrodynamics of slender structures.

221 Although the low-Reynolds-number hydrodynamics of swimming flagellated bacteria in simple

222 nd management policies further influence the hydrodynamics of SWSs, significantly impacting reservoir

223 Here, we analyze the thermodynamics and hydrodynamics of the Nank:Dx heteroassociation, as well

224 Molecular simulations to model the hydrodynamics of the polysaccharide and the interaction

225 pillaries model was used to characterize the hydrodynamics of this monolith.

226 direct experimental result to show the true hydrodynamics of transport and mixing under multiphase f

227 rical shape on the settling of sediments and hydrodynamics of turbidity currents in a narrow channel.

228 Here, we elucidate the hydrodynamics of urination across five orders of magnitu

229 dented sensitivity and without dyes from the hydrodynamics of water jets as they emerge from single n

230 and hydrological problems pertaining to the hydrodynamics of water-limited environments where plant-

231 rresponding general Hamiltonian framework of hydrodynamics on complete Riemannian manifolds, which in

232 assical nucleation theory to the large-scale hydrodynamics on the droplet scale, bringing together tw

233 The impact of hydrodynamics on the mobility of enclosed lipid domains

234 Nanohydrodynamics simulations, hydrodynamics on the nanometer and nanosecond scale by m

235 ratio of about unity, at which the effect of hydrodynamics on the structure of the disk cannot be ign

236 vers significant ramifications of near-field hydrodynamics on transport and dynamic restructuring of

237 aining a central channel (mimicking fracture hydrodynamics), our study utilized muCT X-ray imaging at

238 ar flow by accounting for two body collision hydrodynamics, platelet activation and receptor biology.

239 e, with effluent quality and receiving water hydrodynamics playing secondary roles.

240 It is found that the plume hydrodynamics plays a great role in redefining the plasm

241 lipid systems at the mesoscopic scale where hydrodynamics plays an essential role, e.g. by modulatin

242 idic system only with the knowledge of local hydrodynamics, polymorphs, and comprehensive image analy

243 The theories of aero- and hydrodynamics predict animal movement and device design

244 ss flow resistance compared to the classical hydrodynamics prediction.

245 roscopy (chemical composition) and molecular hydrodynamics, primarily using analytical ultracentrifug

246 In particular, the suspected cooperative hydrodynamics provided by groups of cells remains largel

247 mV, Hamaker constant = 10(-19) J), detailed hydrodynamics provided the flow field around the collidi

248 plication to dense plasmas through a quantum hydrodynamics (QHD) approach.

249 re, and aqueductal cerebrospinal fluid (CSF) hydrodynamics relative to spaceflight and to establish a

250 he interaction between biofilm structure and hydrodynamics remains a fundamental question concerning

251 Accurate prediction of SPM hydrodynamics requires the quantification of 3D floc pro

252 find a stable equilibrium of the rotational hydrodynamics resulting in the alignment of the heads.

253 Here we report a radiation hydrodynamics simulation of early galaxy formation(11,12

254 We performed radiation-hydrodynamics simulations that followed the growth of a

255 Furthermore, we performed smoothed particle hydrodynamics simulations to demonstrate that the condit

256 e use of three-dimensional smoothed particle hydrodynamics simulations with unprecedented resolution.

257 chine learning model that combines radiation hydrodynamics simulations, deep learning, experimental d

258 In agreement with Brownian hydrodynamics simulations, we find a sigmoidal increase

259 tion of scattering experiments and radiation hydrodynamics simulations.

260 The current work uses complete hydrodynamics solutions, which are free from the RFT ass

261 e particle dynamics (DPD), smoothed particle hydrodynamics (SPH) and computational thermodynamics (CT

262 Here, we use the Smoothed Particle Hydrodynamics (SPH) approach to study various positional

263 ng meshless particle-based smoothed particle hydrodynamics (SPH).

264 k under impact loading using Smooth Particle Hydrodynamics (SPH).

265 ondensed matter physics - including electron hydrodynamics, strange metal behavior, and high-temperat

266 ever, the demonstration of nonlinear quantum hydrodynamics, such as superfluidity and Cerenkov flow,

267 bulence(11)-an instability known to occur in hydrodynamics, superconductors and Bose-Einstein condens

268 led by a variety of factors that include the hydrodynamics, surface chemistry and genotype of the cel

269 The technique is based on point-sink hydrodynamics that result when a DNA sample is forced th

270 The model solves the hydrodynamics, the transfer of heat in the reservoir, an

271 king consequence of fluctuating relativistic hydrodynamics: The full counting statistics (FCS) of cha

272 ies via frequency modulation and is based on hydrodynamics theory of thin gaps we developed here.

273 simplified governing equations from Q-tensor hydrodynamics theory, demonstrates true 3D control over

274 hat the rear-squeezing mechanism is aided by hydrodynamics through a pressure gradient.

275 l statistical viewpoint that connects to the hydrodynamics through the fluctuation-dissipation theore

276 Using a model that couples hydrodynamics to bending, we predict a reduced drag grow

277 namics with both microscopic and macroscopic hydrodynamics to explain how several independent process

278 techniques usually employed in the study of hydrodynamics to explain the magnon-based nonlinear phen

279 were carried out using a low Reynolds number hydrodynamics transport code based on the finite-element

280 Colocalization, driven by hydrodynamics, ultimately reduces BV's search space for

281 potentially provide insights into fs-plasma hydrodynamics under harsh conditions, instrumental custo

282 strates the possibility of studying electron hydrodynamics using high-quality graphene.

283 In hydrodynamics, vortex generation upon the transition fro

284 Beyond the specifics of hydrodynamics, we argue theoretically that topological d

285 Based on passive hydrodynamics, we developed a microfluidic embryo-trap a

286 ating photochemistry, magnetoelasticity, and hydrodynamics, we explain the swimming mechanism and pre

287 s, 24 years of rainfall data, and subsurface hydrodynamics, we found increasing rainfall rates, which

288 e behavior, structural dynamics and swimming hydrodynamics, we perform extensive computational simula

289 d mechanical modeling revealed that swimming hydrodynamics were accurately captured without including

290 -lowering drugs on the parameters of aqueous hydrodynamics were also evaluated.

291 The river hydrodynamics were used to determine potential egg settl

292 as used to fabricate flow cells with defined hydrodynamics which minimize dispersion of the analyte a

293 Hydrodynamics, which generally describes the flow of a f

294 This surface-induced para-hydrodynamics, which mimics many aspects of conventional

295 This unexpectedly rapid onset of hydrodynamics-which takes place on the fastest available

296 mbranes as the support, so that it optimizes hydrodynamics while maintaining even fluxes.

297 micromotives to macrobehavior by augmenting hydrodynamics with individual preferences that guide mot

298 iscosity arises from non-linear equations of hydrodynamics with rotational degrees of freedom, once l

299 showed that saltmarsh systems influenced the hydrodynamics within and above the canopy, enhancing tur

300 odelling, can achieve this goal - monitoring hydrodynamics within living root tissues at cell- and su