ライフサイエンスコーパス: wave

1 gand to generate a nearly synchronized cargo wave.

2 t directions of the incident electromagnetic wave.

3 que broadband source of the chiral terahertz wave.

4 blic health measures to avoid a new epidemic wave.

5 emic signal integration, focusing on the ROS wave.

6 t, Myo1D, E, and F are enclosed by the actin wave.

7 lain the origin of secondary microseism Love waves.

8 k-adapted a- and b-waves and light-adapted b-waves.

9 g the frequency and severity of extreme heat waves.

10 correlated with the direction of the Ca(2+) waves.

11 period-amplitude analysis of individual slow waves.

12 rogeneity in the mechanisms generating those waves.

13 oxygen species (ROS), hydraulic and electric waves.

14 d influence the emergent behavior of mitotic waves.

15 uman-driven stressors, including marine heat waves.

16 concordance to the propagation of mechanical waves.

17 ndency of each hemisphere at generating slow waves.

18 ltiple propulsors coordinated as metachronal waves.

19 ives outward-propagating ultra-low frequency waves.

20 E10.5] or late-born (E11.5-E12.5) neurogenic waves.

21 ralized Wigner crystals(7) to charge density waves.

22 boosts," yielding defects analogous to shock waves.

23 hree-dimensional chiral metacrystal of sound waves.

24 tracing to analyze primordial follicles and wave 1 medullar follicles during mouse fetal and perinat

25 We analyzed cross-sectional data from wave 2 of the 19 country Survey of Health, Ageing, and R

26 tum chromodynamics simulation data using a D-Wave 2000Q quantum annealer and good prediction performa

27 couple to short-wavelength surface acoustic waves(4-10), probing the properties of the atom at only

28 onozygotic, 56% females), aged 31-37 y, from wave 5 of the FinnTwin16 study.

29 auditory stimulation is used to enhance slow-wave activity.

30 s study was to determine if triggered Ca(2+) waves affect cellular electrophysiological properties.

31 ity: the annihilation of oppositely directed waves, all-or-none responsiveness, and refractoriness.

32 Comparison of CBP against a pulse wave analysis (PWA) device (Atcor Medical Sphygmocor XCE

33 Formin ForB favors the actin wave and ForG the inner territory, whereas ForA, ForE, a

34 is known about how drought shapes the green wave and influences the foraging benefits of migration.

35 ecent progress in high power ultrafast short-wave and mid-wave infrared lasers has enabled gas-phase

36 Continuous wave and pulsed (HYSCORE) X-band EPR show it has a highl

37 usly adjust to daily and seasonal changes in wave and tide conditions, which are themselves changing

38 reased generation of both spontaneous Ca(2+) waves and delayed afterdepolarizations.

39 the non-monotonic osmosis-driven deformation waves and determines the onset of their emergence in ter

40 distinct messengers, including gravitational waves and electromagnetic signals, can be used to study

41 iques, including automated detection of slow waves and eye movements.

42 hip between P2Y-stimulated repetitive Ca(2+) waves and fibrinogen binding to the platelet integrin al

43 ve efforts can we better prepare for further waves and for future coronavirus-related pandemics.

44 The episodes generate planetary waves and higher-frequency wave trains that transport mo

45 Other planetary-scale waves and large-scale turbulence act in the opposite dir

46 reduced amplitudes of dark-adapted a- and b-waves and light-adapted b-waves.

47 articles moving faster than the speed of the waves and naturally generates power-law distributions.

48 ence of prominent sleep-like TMS-evoked slow waves and off-periods-reflecting transient suppressions

49 The coupling between PGO waves and ripples, classically associated with distinct

50 obal events, or as propagating intercellular waves and thereby represent the substrate for astroglial

51 g through laser-spark plasma-generated shock-waves and to enable three-dimensional tracking of explos

52 L-EES can record direct muscle responses (M-waves) and H-reflexes, both of which are comparable to t

53 ntricular end-diastolic volume index, peak E wave, and the presence of pulmonary vein systolic revers

54 ave, PR segment, QRS interval, ST segment, T wave, and TP segment) and 2 composite, conventional (PR

55 Importantly, slow waves behave as traveling waves, and their propagation is assumed to occur through

56 Mercury species were determined using square wave anodic stripping voltammetry (SW-ASV) with a solid

57 and Pb(II) in bivalve mollusks using square wave anodic stripping voltammetry (SWASV).

58 in the red-detuned regime under the rotating wave approximation.

59 c action potentials and intercellular Ca(2+) waves are generated in smooth muscle cells of colonic lo

60 We identify these intertwined density waves as being Fermi surface-driven, revealing a novel o

61 eflect the increasing number of contributing waves as the energy is increased.

62 topological defects in these N(r, E) density waves at 2Q, we find them to be concentrated in areas wh

63 progenitor cells (HSPCs) develop in distinct waves at various anatomical sites during embryonic devel

64 Integrated optically inspired wave-based processing is envisioned to outperform digita

65 onator combs(5,6), an injected monochromatic wave becomes destabilized by the interplay between the r

66 Importantly, slow waves behave as traveling waves, and their propagation i

67 r cells exit the cell cycle in a coordinated wave between E12.5 and E14.5 before the initiation of se

68 buted circuits could be enabled by traveling waves but reveal heterogeneity in the mechanisms generat

69 Acoustic waves can be used to accurately position cells and parti

70 Higher-amplitude and faster waves caused stronger advection.

71 on of the sediment bed surface and the flood wave characteristics controls the transition from rivers

72 ing and collimation, we develop a structural wave cloak and waveguide based on SLLs.

73 A continuous-wave CO2 laser of wavelength 10.6 mum and a Trumpf Yb-YA

74 The SCAR/WAVE complex is the major driver of lamellipodia formati

75 subunit of the pentameric cytoskeletal SCAR/WAVE complex, a major downstream target of RAC1, in a mo

76 ed the following: periodic discharges, spike-wave complexes, any rhythmic delta other than generalize

77 s, and was strongly correlated with the slow wave component of NR arousals (r = 0.99, p < 0.0001).

78 upling efficiency up to 18% under continuous-wave condition at room temperature.

79 ity to achieve a fully passive and broadband wave control.

80 ned composite acoustic lens that can achieve wave convergence is proposed by assembling a lattice arr

81 At the end of the epidemic wave, crude and age-standardized cumulative incidence ra

82 was a 26% reduction in backward compression wave cumulative intensity following the introduction of

83 two intertwined and transient transcription waves defining competence in Streptococcus pneumoniae.

84 Combining coherent and non-coherent spin wave detection, the spin pumping efficiency can be therm

85 he antennas of interferometric gravitational wave detectors to chip-scale quantum micro- and nano-mec

86 Acoustic standing wave devices offer excellent potential applications in b

87 Although the speed and morphology of actin waves differ between MCF10A and HL60 cells, the underlyi

88 ature anomalies coexist with oscillations in wave direction, which indicates the influence of tempera

89 or coastal communities from storm surges and wave-driven erosion.

90 ptible to AF in association with increased P-wave duration and slowed atrial conduction velocity.

91 ubject) to measure PQ and QT intervals and P wave durations.

92 experience a trophic mismatch with the green wave during drought.

93 deer closely followed drought-altered green waves during migration.

94 We investigate theta- and delta-wave dynamics in control rats and in rats where the slee

95 Shear wave elastography (SWE) is a relatively new technique fo

96 Shear wave elastography assessments were performed using a Tos

97 rget the consistency of healthy cervix shear wave elastography measurements and examine the changes i

98 We used continuous wave EPR experiments to characterize Cu2+ binding to DPA

99 Extreme heat wave events are now causing ecosystem degradation across

100 cal cavity-based system combining evanescent wave (EW) with high-sensitive cavity ring-down spectrosc

101 se detectors was measured using a continuous wave excitation laser in an epifluorescence detection co

102 The apparent lack of coherent spin wave excitations and strong sensitivity to quenched diso

103 conceptualized as a dynamic, interconnected wave-field repeating its pattern on a daily basis.

104 rts a frequency conversion between different wave fields, which is further analyzed as a function of

105 the unique capabilities of SLL for flexural wave focusing and collimation, we develop a structural w

106 t of Lgr5-DTR-EGFP mice at E16.5 while first wave follicles developed normally and supported fertilit

107 r separate somatic cellular lineages, second wave follicles were ablated by diptheria toxin treatment

108 en the Weyl fermions and the electromagnetic wave for further study of novel light-matter interaction

109 ing and immediately after the COVID-19 first wave for the 9 departments in the Division of Surgery at

110 aterial highly reflective to electromagnetic waves for frequencies up to the optical region.

111 c cold fronts have an important influence on wave formation and associated processes over Louisiana c

112 ation of a nontoxic dosage of GHz ultrasonic waves [Formula: see text] caused an average normalized f

113 We use P-s scattered waves from the Moho as virtual sources to investigate S-

114 it and difficulty to preserve a high-quality wave front for focus.

115 ve velocity can strongly distort propagating wave fronts and degrade image quality.

116 s correctly predicted by multireference (MR) wave function calculations.

117 processes to arise from the hybrid nature of wave function delocalization over the linear and radial

118 Quantum confinement effects facilitate wave function engineering to sculpt the spatial distribu

119 normalization of the relativistic three-body wave function is studied in detail.

120 that provides a persistent phase bias to the wave function of a quantum circuit.

121 te prediction of DeltaE(ST) using correlated wave-function-based calculations.

122 ove upon coupled cluster methods and Jastrow wave functions, reaching chemical accuracy or better.

123 Atmospheric gravity waves generated by an eclipse were first proposed in 197

124 rature-driven atmospheric teleconnections on wave-generation cycles.

125 al stimulation with moving full-field square-wave gratings (0.04 cycles per degree, 2.0 cycles per se

126 artery occlusion pressure were a lateral e'-wave greater than 8 (for a left ventricular ejection fra

127 Electromagnetic surface waves guided by the planar interface of an orthorhombic

128 Spontaneous travelling waves have been reported during anaesthesia(2-7), but it

129 owing long-lived short-scale mode-2 internal waves have now been documented in the Andaman Sea, and w

130 images of resuspension events and ice cover, wave hindcasts, and continuous turbidity measurements at

131 ease dynamics (i.e. Ca(2+) sparks and Ca(2+) waves), how NOX2 is activated by and responds to stretch

132 ent also shows abnormal AEPs presenting only Waves I and II.

133 appears to be insufficient to avoid a second wave if all control measures are released at the end of

134 Here, we introduce a full-field approach to wave imaging based on the concept of the distortion matr

135 to 3 mM tricine does not affect the murine b-wave in both genotypes, most likely because of chelating

136 er extremes including the unprecedented heat wave in Siberia contribute to the decline that is bound

137 re, we exploit the propagation of transition waves in a bistable one-dimensional (1D) linkage as a ro

138 m carried by microwave-excited coherent spin waves in a V(TCNE)(x) film can be transferred into an ad

139 insulator, which is able to confine acoustic waves in an all-angle and wide spectrum range due to tre

140 e role of optogenetically induced sleep slow waves in an animal model of ischemic stroke and identify

141 omalously high absorption of electromagnetic waves in its layered, metamaterial-like structure.

142 ward scattering, but into near-field surface waves in reverse scattering.

143 tical keyhole instability generates acoustic waves in the melt pool that provide additional yet vital

144 of an unknown "u" wave occurring after the c wave, in half of the cohort.

145 c cups and associate with the actin in actin waves. In contrast, Myo1D, E, and F are enclosed by the

146 ready undergone repeated and widespread heat wave induced degradation.

147 nce cold-water intrusions caused by internal wave-induced upwelling, that manifest in distinct daily

148 umerically, discovering that the peristaltic wave induces a steady streaming to/from the brain which

149 Calcium wave induces the polarized movement of the surrounding c

150 s in high power ultrafast short-wave and mid-wave infrared lasers has enabled gas-phase high harmonic

151 evelopment of modulators in the mid- to long-wave infrared, based on emerging materials such as graph

152 l rainbands produce single-peak meteotsunami waves, inner spiral rainbands trigger longer lasting wav

153 In photonics, wave instabilities result in modulated light waveforms t

154 amplitudes in 12 leads; as well as QRS and T wave integrals.

155 ts effects on the ventricular function using wave intensity analysis.

156 However, matter-wave interferometry has remained an outstanding challeng

157 ar complex count, and number of leads with T-wave inversion) were associated with LTVA.

158 h presence of MAD, leaflet redundancy, and T-wave inversion/ST-segment depression (all p < 0.0001) bu

159 eft ventricular end-systolic diameter, and T-wave inversion/ST-segment depression (all p <= 0.001).

160 Electrocardiography revealed nonspecific T-wave inversions, and a series of cardiac biomarkers were

161 t of the through flow due to the peristaltic wave is characterized by an in-depth physical analysis a

162 amplification of basilar membrane traveling waves is thought to occur between a tone's characteristi

163 Both RV E-wave KEi(EDV) (r = -0.3, P = 0.04) and A-wave KEi(EDV) (

164 V E-wave KEi(EDV) (r = -0.3, P = 0.04) and A-wave KEi(EDV) (r = 0.42, P < 0.01) showed an association

165 lity to spread through cell populations in a wave-like manner, resulting in a distinct spatiotemporal

166 designed to reveal the quantum phase of the wave-like nature of electrons in a metal.

167 At low energies, the quantum wave-like nature of molecular interactions results in di

168 [Formula: see text]-oriented high-field spin wave measurements confirm that antiferromagnetism is met

169 We used log-linear and sine-wave models to estimate the parasite growth rate of the

170 ined for the spintronic applications of spin wave modes in organic-based magnets.

171 The de Broglie wave nature of matter is a paradigmatic example of quant

172 discharge (CD) coupled to a surface acoustic wave nebulization (SAWN) device enhanced sampling perfor

173 of the tropical mixed layer to near-inertial waves (NIWs) has only rarely been observed.

174 Continuous-wave (nonpulsed) 920-nm illumination at the same average

175 We use an idealized coupled ocean-atmosphere-wave numerical model to analyze tropical cyclone-induced

176 except for the singularity of an unknown "u" wave occurring after the c wave, in half of the cohort.

177 Rayleigh-wave OCE may prove useful for clinical diagnosis, refrac

178 ill likely come too late to affect the first wave of a potential pandemic.

179 neighboring regions, first with a migration wave of Anatolian farmers followed by varying degrees of

180 cells, which differentiate into a transient wave of circulating antibody-secreting plasmablasts(1-3)

181 uscle contractions that are in turn due to a wave of electrical activity initiated at the sinoatrial

182 However, this wave of expansion was far from homogeneous, and climatic

183 The first wave of genetically targeted therapies for cancer focuse

184 reported in Wuhan, China, where the initial wave of intense community transmissions was cut short by

185 and strongly allosteric, likely driven by a wave of interdependent conformational changes throughout

186 in 2 populations of CD45+ HSPCs; an initial wave of lymphomyeloid-biased progenitors, followed by pr

187 mping of blood through the heart is due to a wave of muscle contractions that are in turn due to a wa

188 d low Rac1 activities are maintained until a wave of oscillatory GTPase activities from the cell fron

189 Here, I review the state of this new wave of research.

190 ia an FTY720-resistant pathway after the 1st wave of spreading is inhibited by FTY720.

191 s, genital Chlamydia is able to launch a 2nd wave of spreading via an FTY720-resistant pathway after

192 A recent wave of synthetic biology efforts has focused on the est

193 In the first wave of synthetic biology, genetic elements, combined in

194 In the second wave of synthetic biology, the simple circuits, combined

195 sed medicine have emerged during the initial wave of the COVID-19 pandemic but reports of outcomes ar

196 During the first wave of the COVID-19 pandemic, fewer than 10% of the US

197 ubset of individuals recruited in the second wave of the MIDUS project completed in 2009.

198 conversion over the full course of the first wave of the pandemic in a major metropolitan area.

199 We considered 2 outcomes from the baseline wave of the Ten to Men study (Australia, 2013-2014) and

200 lly preregistering new hypotheses in between waves of data collection, we identified individual, cont

201 neuronal network activity trigger widespread waves of extracellular GABA in hippocampal neuropil.

202 with models based on the arrival of multiple waves of H. sapiens into Europe coming into contact with

203 de-resistant isolate in 1998, three epidemic waves of macrolide-resistant GAS infections have occurre

204 he past fifty years have seen two successive waves of transformative innovation in the development of

205 to excite and detect longitudinal ultrasound waves of various frequencies traveling through randomly

206 ted holograms (CGHs), which modulate optical waves on a solitary transverse plane.

207 tilization of coherent and non-coherent spin waves on various modes in V(TCNE)(x) is demonstrated and

208 array, which connects the patch to the leaky-wave open-ended feeding slot-lines running underneath th

209 ativity C(eff) = C/n(b) > 1 under continuous-wave optical driving.

210 Teepee PhC, respectively, in agreement with wave-optics, numerical simulations.

211 Raman scattering with narrowband continuous wave or nanosecond light sources.

212 id not have a significant impact on the slow waves or memory performance after sleep.

213 nificant effects on the distribution of slow-wave origin probability across hemispheres.

214 The wave oscillates the plasmapause in the afternoon-dusk se

215 od focusing intensity and can focus acoustic waves over a wide range of incidence angles without losi

216 ces in the electronic state-switching of the wave packet in i-C(3)H(7)I and t-C(4)H(9)I directly lead

217 is opens the possibility of tracking plasmon wave packets in real time for novel imaging techniques i

218 c quantum states, including the pair density wave (PDW), in which the superconducting (SC) order para

219 Scar/WAVE phosphorylation does not require ERK2 in Dictyostel

220 to 6 contiguous, physiologically distinct (P wave, PR segment, QRS interval, ST segment, T wave, and

221 In order to determine how an electromagnetic wave propagates from a base station to a cell phone or a

222 ion governed by the physics of photoacoustic wave propagation and then uses a convolution neural netw

223 umerical simulations of global-scale seismic wave propagation at unprecedented high frequency, here w

224 into time- and frequency-domain features of wave propagation in randomly packed granular materials,

225 ces in the harmonic and impulsive regimes of wave propagation.

226 main responsible for cross-hemispheric slow-wave propagation.

227 ial-multiplexed DOPO system using continuous-wave pumping.

228 ionary optimized for sparse inference on a D-Wave quantum annealer.

229 new light on unsurpassed control of elastic waves, ranging from vibration protections to ultrasonic

230 t in 4 patients (50%), but with additional a-wave reduction, there was an undetectable ERG in the rem

231 Finally, waves reflected northward from the ITCZ air column and/o

232 escribed with their cumulative intensity and wave-related pressure change.

233 ongly interacting circuits exhibit traveling waves remains unknown.

234 and with samples collected during the 'first wave', representing 56% of all confirmed cases in this t

235 d synaptic and spiking activity during sharp wave ripple (SWR) events in early amyloid pathology and

236 ity of the hippocampus is dominated by sharp wave-ripple events (SWRs), which have been shown to be i

237 ges (IEDs) in mice with TLE as well as sharp-wave ripples (SPW-Rs) in healthy mice, and find that abG

238 models of AD, there are disruptions to sharp wave ripples (SWRs), hippocampal population events with

239 e claustrum suppress the production of sharp-wave ripples during slow-wave sleep in a unilateral or b

240 , coactivation of hippocampal cells in sharp-wave/ripples represent inferred relationships that inclu

241 based on the development of surface acoustic wave (SAW) flexible biosensors, which are highly reprodu

242 es and cells in paper using surface acoustic waves (SAW).

243 e diffracting waveforms, we detected seismic waves scattered by three-dimensional structures near the

244 on between their middle- (M-) and long- (L-) wave sensitive cone photoreceptors [2].

245 Global models of tide, storm surge, and wave setup are used to obtain projections of episodic co

246 tern of cortical activation (i.e. travelling waves) similar to that elicited by visual stimulation.

247 re specialized forms of sleep including slow wave sleep (SWS) and rapid eye movement sleep (REM), rai

248 es are spontaneously reactivated during slow-wave sleep (SWS), leading to the consolidation of recent

249 unmarked reward zone to patterns during slow-wave sleep (SWS).

250 ve affect stage, there is a decrease in slow-wave sleep and some limited recovery in REM sleep when i

251 production of sharp-wave ripples during slow-wave sleep in a unilateral or bilateral manner, respecti

252 treserpine days, sleep was dominated by slow-wave sleep with fast intrusions and reduced hierarchical

253 ssion, revealing not only a decrease in Slow Wave Sleep, but also a disinhibition of REM (rapid eye m

254 mulation in memory consolidation during slow-wave sleep.

255 s enables micron-scale measurements of actin-wave speed and direction.

256 he cells motility, which (i) decelerates the wave speed and the leading edge progression, and (ii) de

257 ubjects aged between 25 and 67, the Rayleigh-wave speed was 7.86 +/- 0.75 m/s, corresponding to a she

258 mum joint torque and with the relative shear wave speed, suggesting that variable gearing may explain

259 ualise which part of the ECG signal (e.g., T-wave, ST-interval) is significantly associated with the

260 gion has undergone frequent and intense heat waves, storms, floods, and droughts.

261 Electromagnetic or ultrasound waves suffer from absorption and impedance mismatches at

262 ogresses across the landscape (termed "green-wave surfing").

263 es, ripple frequencies, and ripple and sharp wave (SW) amplitudes were increased in both, while SWR o

264 ory formation, prompting us to cluster sharp waves (SWs) in the DG [dentate SWs (DSWs)] during sleep.

265 the P3b event-related potential, a late slow wave that appears when observers are aware of a stimulus

266 We initialize the tsunami as an N wave that propagates to shore and impacts the coast dire

267 ature changes from the travel times of sound waves that are generated by repeating earthquakes.

268 es predisposes these cells to subcellular Ca waves that occur during the action potential (AP) and ar

269 We experimentally observed solitons-waves that propagate without changing shape as a result

270 iate as "subshear" cracks (slower than shear waves) that transition to developed slip pulses where no

271 T) by the use of highly penetrating acoustic waves to activate a class of sound-responsive materials

272 raphy (OCE), which launches and tracks shear waves to estimate stiffness, provides an attractive non-

273 use an energy-based analysis of hemodynamic waves to quantify the effect of aortic arch stiffening o

274 nner spiral rainbands trigger longer lasting wave trains on the front side of the tropical cyclones.

275 enerate planetary waves and higher-frequency wave trains that transport momentum and heat southward i

276 enge by supporting back-scattering resistant wave transmission.

277 etection-LoD, 6.54*10(5) CFU/ml) of the Lamb wave traveling on the polymeric device has been obtained

278 We also show that the same acoustic waves, used to create the nanolenses, can mitigate again

279 the Moho as virtual sources to investigate S-wave velocities between the Moho and the surface.

280 We discovered that P-wave velocities track where a porosity-generating reacti

281 ht on the fundamental mechanisms controlling wave velocities, dispersion, and attenuation in such sys

282 Carotid femoral pulse-wave velocity (cfPWV) measured arterial stiffness 2, 12,

283 can accurately detect and measure the pulse wave velocity (PWV) when skin mounted.

284 Spatial variations of wave velocity can strongly distort propagating wave fron

285 and thoracic aorta calcium scores and pulse wave velocity were measured to evaluate VC progression.

286 , and cardiac valve calcium scores and pulse wave velocity were not significantly different among the

287 paste (CP) microneedle electrodes for square wave voltammetric (SWV) detection of the fentanyl and ne

288 d through cyclic voltammetry (CV) and square wave voltammetry (SWV) measurements.

289 Two isoforms of SCAR/WAVE, WAVE1 and WAVE2, reside at the leading edge, yet i

290 hether the MEC also activates in a traveling wave, we performed extracellular recordings of local fie

291 The waves were described with their cumulative intensity and

292 E10.5] or late-born (E11.5-E12.5) neurogenic waves, where late-born V3 INs display increasingly restr

293 ems exhibit three quasi-reversible reduction waves which are cathodically shifted in regard to the pa

294 e underlying stochasticity of subcellular Ca waves, which perturbs AP repolarization and consequently

295 anisms behind interaction of electromagnetic waves with 2D materials.

296 We demonstrate time reversed optical waves with a device capable of independently controlling

297 The isoindigo 4-7 shows multi-redox waves with a low electrochemical band gap, which signifi

298 as been achieved by applying electromagnetic waves with different frequencies and amplitudes.

299 designed geometric phase generate plasmonic waves with different orbital angular momenta.

300 apid eyes movement sleep with dominant theta waves without atonia.