ライフサイエンスコーパス: vibration

1 relevance to the gyroscopic lateral modes of vibration.

2 temperature sensitivity of the OH stretching vibration.

3 for 5 minutes with WBV (30 Hz, 1.5 mm) or no-vibration.

4 types encoding tibia position, movement, and vibration.

5 control of limb posture and detection of leg vibration.

6 oduced by airflow-induced labia and membrane vibration.

7 ve prevented optical identification of these vibrations.

8 thought to mechanically amplify sound-evoked vibrations.

9 21.6 meV, equal to E" phonon energy from Se vibrations.

10 is crucial to pick the reaction accelerating vibrations.

11 only Coulomb friction is postulated for free vibrations.

12 rogrammable patterns of localized mechanical vibrations.

13 ntramolecular charges and currents driven by vibrations.

14 tial water coupling to the uranyl stretching vibrations.

15 ed to a target, with not only spins but also vibrations.

16 d on visualization of specific chemical-bond vibrations.

17 fields (tip-induced plasmons), and molecular vibrations.

18 differences in the nu(C=O) and nu(C-H) band vibrations.

19 uter hair cells) in response to the acoustic vibrations.

20 d effects of aging, chemical treatments, and vibrations.

21 ponding conversion of photoenergy to lattice vibrations.

22 high temperatures is due to local molecular vibrations.

23 lows carriers to couple to the low-frequency vibrations.

24 ordinate comprising high-frequency promoting vibrations.

25 depiction of the complete set of its normal vibrations.

26 cylindrical shape and established amide bond vibrations.

27 n wavelength changes when it is subjected to vibrations.

28 ubit coherence that is resilient to platform vibrations.

29 pating the direct visualization of molecular vibrations(11-13).

30 powerful tool for sensing strain, pressure, vibration, acceleration, temperature, and humidity in in

31 locations of [Formula: see text] stretching vibrations allude to significant hydrogen bonding betwee

32 Increasing the vibration amplitude can mitigate some of these effects b

33 necessary to generate approximately 30 nm of vibration amplitude, and custom 6-well cultureware with

34 indicative of multiple binding tethers, (2) vibration amplitudes of adhering bacteria parallel to a

35 vely, upon mapping the reaction accelerating vibrations an image of the RC can be reconstructed.

36 Finally, the vibration and eigenvalue problem of the actuated nano-ma

37 nks descending vocal motor control to tissue vibration and sound requires embodied approaches that in

38 Surprisingly, the direction of vibration and the associated directionally dependent neu

39 Airspeed affects the magnitude of whisker vibration and the response magnitude of whisker-sensitiv

40 anular particle mixtures subject to vertical vibration and upward gas flow, including a Rayleigh-Tayl

41 tor can have three stable states of period-3 vibrations and a zero-amplitude state.

42 e is essential for understanding the thermal vibrations and dynamics as well as the conformational ch

43 ectric energy harvester scavenges mechanical vibrations and generates electricity.

44 que that detects the absorbance of molecular vibrations and is perfectly suited for the interrogation

45 g, respiration, cardiac activity, vocal-fold vibrations and other sources, we exploited frequency-dom

46 beam, we measure the beam's thermally driven vibrations and perturb its motion with optical force flu

47 energy as a descriptor for certain molecular vibrations and rigorously relate errors in frequencies t

48 requires a study of the biomechanics of bee vibrations and their transmission on flowers.

49 tion of directional movement, high frequency vibration, and joint angle.

50 ansduction channel for touch discrimination, vibration, and proprioception.

51 eophysics, ultrasonic inspection, mechanical vibration, and surface acoustic wave devices; precise ma

52 d to emit simulated traffic and wind turbine vibrations, and changes in the toads' acoustic responses

53 ehaviour affect the mechanical properties of vibrations, and how floral traits may influence the tran

54 g multiple electronic states, high-frequency vibrations, and low-frequency vibrations which participa

55 ithstand mechanical stress, such as take-off vibrations, and onboard depressurization events, while t

56 ize finger movement, hand gestures, acoustic vibrations, and real-time pulse wave.

57 he terrestrial vertebrates most sensitive to vibrations, and since communication is crucial to their

58 it thermal radiation and suppress mechanical vibrations; and nondestructive evaluation of the elastic

59 nators operating on three different modes of vibration are suited best.

60 We show that intramolecular vibrations are an integral part of this mechanism, givin

61 hat spans across the substrate, on which the vibrations are generated and from which the sample origi

62 The FTIR data show that the C-O vibrations are substantially higher than in the correspo

63 Vibrations are transduced into electronic signals by int

64 The CO stretch vibrations are very sensitive to the redox changes withi

65 is revealed by using the microscopic surface vibrations as a fingerprint of the surface structure.

66 found to well correlate with the low energy vibrations as determined by THz spectroscopy.

67 the dominance of antisymmetric CH methylene vibrations as the anhydrous milk fats crystal lattice be

68 erimental/theoretical evidence for sustained vibration-assisted electronic (vibronic) coherence in th

69 cluding a time-domain signature for coherent vibration associated with the photogenerated CN fragment

70 ivating 10Balpha neurons, which encode tibia vibration at specific joint angles, elicits pausing in w

71 late, calibrated and optimised for nanometre vibrations at 1 kHz, a power supply unit, which supplies

72 s behavior may be related to the coupling of vibrations at contact points that vary during the relati

73 ns and non-invasively measured sound-induced vibrations at four locations distributed over the apical

74 ertain favourable properties-such as lattice vibrations at high frequencies-they are not sufficient t

75 ttacking tool, which produces high-frequency vibrations at the interface.

76 ential for further expanding the spectrum of vibration attenuation in such structures by introducing

77 We demonstrate that the vibration attenuation profile is strictly related to the

78 ve led to innovative solutions for broadband vibration attenuation, with a multitude of potential eng

79 Raman spectrum of 2 reveals a diatomic Co-O vibration band at 770 cm(-1), which provides the conclus

80 ent evaluation methods for the OH stretching vibration band.

81 s in a carbon nanotube resonator(3-7), their vibrations become increasingly coupled and strongly inte

82 ns to ramp-and-hold stretches and sinusoidal vibrations before and after the addition of the competit

83 nal energy relaxation pathways to single out vibrations belonging to the RC.

84 peak frequency and shape of the MOF hydroxyl vibration below 0.1 GPa.

85 We show that radon isotopes undergo octupole vibrations but do not possess static pear-shapes in thei

86 eometry suppresses the phase variance due to vibrations by three to four orders of magnitude, overcom

87 the presence of peaks related to N-H bending vibration, C-N stretching and symmetric, and asymmetric

88 Recent findings show that molecular vibrations can enable the dramatic acceleration of some

89 , we show that optical excitation of lattice vibrations can induce polar order.

90 noparticles, which under external mechanical vibration caused cell lysis and released DNA in the supe

91 Vibration caused phospholipase C activation, transient i

92 coustic wave excitation; this high-frequency vibration causes steady-state streaming flows.

93 f microvilli that pivot in response to sound vibrations, causing the opening and closing of mechanose

94 Surprisingly, the direction of the whisker's vibration changes as a function of airflow speed: vibrat

95 r silk plays a significant role in nonlinear vibration characteristics of the spider web.

96 ficantly enhanced (up to ~10(4) fold) alkyne vibration compared to conventional alkyne Raman probes.

97 ral features in part originate from hydrogen vibrations confined by neighboring hydrogen at distances

98 Liver stiffness (LS) was measured using Vibration Controlled Transient Elastography (TE) and lab

99 Pathway includes: (1) patient education (2) vibration controlled transient elastography (VCTE) exami

100 mbining both decision models, FibroTest plus vibration-controlled transient elastography (VCTE) and V

101 Clinical, laboratory, and vibration-controlled transient elastography (VCTE) data

102 of magnetic resonance (MR) elastography and vibration-controlled transient elastography (VCTE) in th

103 ng magnetic resonance elastography (MRE) and vibration-controlled transient elastography (VCTE), and

104 We estimated the accuracy of FibroScan vibration-controlled transient elastography controlled a

105 rom a validated biomarker scoring system and vibration-controlled transient elastography.

106 The rotation-vibration (Coriolis) coupling contribution to variationa

107 at anthropogenically derived substrate-borne vibrations could reduce individual reproductive success.

108 and lateral barrel cortex areas following a vibration cue and delayed frontal and lateral motor cort

109 hing can be repeated for more than 2 x 10(7) vibration cycles without any noticeable degradation in t

110 HGons also have unique vibration dampening and optimization capabilities.

111 Results show significantly enhanced vibration dampening behavior and superior strength-to-we

112 esonant frequency of the vibration plate and vibration damping beyond the resonance.

113 ted for the prediction of swarming, based on vibration data recorded using accelerometers placed in t

114 e "word" sequences constructed from distinct vibrations delivered to the whiskers, assembled in diffe

115 l prediction based on sample composition and vibration directions.

116 contrast to molecular solids where localized vibrations dominate.

117 FM) could locally probe low-energy molecular vibration dynamics below diffraction limits, showing pro

118 nge electrostatic property driven by aeolian vibration, enabling self-sustained PM adhesion.

119 ry simulations of the pigment structures and vibrations, enabling spectral peaks to be assigned to sp

120 d to facilitate detection of small-amplitude vibrations essential for the perception of fine-grained

121 nhanced Rayleigh backscattering to recognize vibration events induced by human locomotion.

122 The device was subjected to a wide range of vibration frequencies, from 1 mHz to 30 Hz, and accelera

123 In this research, vibration frequency analysis of three layered functional

124 to moderate hydrogen bond with a C-H stretch vibration frequency blue-shifted by 14 cm(-1) and d(F-H)

125 ers adaptively secrete nectar in response to vibrations from hovering bees lacks supporting evidence.

126 aits may influence the transmission of those vibrations from the bee to the anther, thus mediating po

127 tion stimulus-thus, perceived intensity of a vibration grew over the course of hundreds of millisecon

128 between the phonon modes and normal modes of vibrations has never been fully established; for example

129 ments, suggests the potential use of elastic vibrations (i.e., phonons) in information processing, fo

130 Protein structural vibrations impact biology by steering the structure to f

131 t, and intramolecular high-frequency quantum vibrations-impact coherences.

132 We tested the ability of the tag to measure vibration in excised whiskers in a flume in response to

133 he dynamics of the ester carbonyl stretching vibration in hydrated phosphocholine lipid bilayers, we

134 ce adhesion by exciting the mechanical micro-vibration in the adhesive system perpendicular to the co

135 Nevertheless, it was shown that only bulk vibration in the form of Lamb waves can be excited in th

136 ormants"), rather than in the rate of tissue vibration in the sound source ("pitch").

137 e editing to monitor the CO/CN(-) stretching vibrations in [FeFe]-hydrogenase HYDA1 from Chlamydomona

138 ooked the possibility of generating acoustic vibrations in concert with their visual color responses

139 theless, the role of anthropogenic substrate vibrations in disrupting animal behavior is poorly under

140 e to synergetic enhancement effect of alkyne vibrations in Raman-silent region compared to alkyne-con

141 Non-linear gain, or amplification of the vibrations in response to low-intensity stimuli, was fou

142 t is commonly hypothesized that OHCs amplify vibrations in the cochlea through cycle-by-cycle changes

143 Tissue vibrations in the larynx produce most sounds that compri

144 Heavy enzymes have been used to test if the vibrations in the native enzyme are coupled to the chemi

145 uter hair cells can either amplify or reduce vibrations in the organ of Corti.

146 matical approach to show that rate-promoting vibrations in the picosecond range, specifically encoded

147 and hold stretches as well as to sinusoidal vibrations in the presence and absence of the acetylchol

148 aterials with enhanced and distinctive Raman vibrations in the Raman-silent region (1800-2800 cm(-1)

149 Organ of Corti vibrations, including those of individual outer hair cel

150 um and also renders the laser susceptible to vibration-induced noise.

151 are optomechanically characterized using the vibration-induced phase shift (VIPS) without detaching t

152 related to the animal's behavioral report of vibration intensity and identifies candidate mechanorece

153 Piezocatalysis, converting mechanical vibration into chemical energy, has emerged as a promisi

154 ls is capable of converting waste mechanical vibration into refrigeration effect which is not reporte

155 anically sensitive hair bundles to transduce vibrations into electrical signals that are forwarded to

156 r the first time in this system, plant-borne vibrations introduced by foraging browsers are confirmed

157 As the very vibrations invoked in ZIF melting but heretofore unobser

158 Such vibrations involve just the topmost atomic layers, and t

159 echanical resonator such that its mechanical vibration is associated with its quantum capacitance.

160 here an ultralow frequency (800 Hz) acoustic vibration is capable of concentrating and patterning sub

161 t sound frequencies because basilar membrane vibration is mechanically tuned to different frequencies

162 s are required, the energy dissipated by the vibrations is usually compensated by replenishment from

163 With this tool, we show that vibration itself is responsible for eliciting much of th

164 conducted through either electrons or atomic vibrations known as phonons.

165 s, when applied in the form of low intensity vibration (LIV), increases mesenchymal stem cell (MSC) o

166 Mechanical experiments show that a whisker's vibration magnitude depends on airspeed and the intrinsi

167 The intra-organ of Corti vibrations measured in the region of the OHCs lost the B

168 In accompanying with the macro vibration, micro buckles occur on the interfaces of the

169 required for efficient energy harvesting and vibration mitigation devices.

170 However, the fundamental free vibration mode shapes and their corresponding frequencie

171 first-principles calculation, and a lattice vibration model, we present evidence that this mode aris

172 doped system, where the lattice symmetry and vibration modes become more coherent than in the singly

173 s demonstrated to efficiently excite several vibration modes of a microplate MEMS resonator and the f

174 after 7, 14, 28, and 56 days under different vibration modes was compared to that under static and mi

175 nators at their fundamental and higher order vibration modes.

176 chlear regions and examined the effect on RL vibrations near and far from the traveling-wave peak.

177 eak at 2068 cm(-1), attributable to (SCN(-)) vibrations, normalized to C-H peak, was on average 18 ti

178 se LCNE samples possess a measurable free OH vibration, not found in previous studies and indicative

179 dral rotation around Pb caused by anharmonic vibration of Cl atoms induced by a 3s(2) lone pair.

180 a multiscale approach to study the nonlinear vibration of fiber reinforced composite laminates contai

181 characteristics in the large-amplitude free vibration of imperfect spider web structures using finit

182 to have a greater effect on structural free vibration of spider web in comparison with other imperfe

183 cochlear physiology is that tuned mechanical vibration of the basilar membrane defines the frequency

184 C-N stretching and symmetric, and asymmetric vibration of the carboxyl group present in the ciproflox

185 rotors is detected when exciting the bending vibration of the water molecule.

186 uency of the unique, Raman-active stretching vibration of this C2-D probe is a clear reporter of the

187 e associated with the intrinsic rattler-like vibration of Tl(+) cations in the cage constructed by th

188 (-1)) related to CH out of plane deformation vibration of trans double bond.

189 Here we directly measure the thermal vibrations of a carbon nanotube in real time using a hig

190 )), THz s-SNOM resolved local intermolecular vibrations of both anomers with enhanced spatial and spe

191 itute relatively flat bands due to localized vibrations of Cs and I atoms.

192 ous injection of furosemide and measured the vibrations of different layers in the cochlea's organ of

193 A new study identifies vibrations of eggs cracking open as the cue that trigger

194 we demonstrate that the macroscopic flexural vibrations of graphene induce dynamical optical phonon s

195 near feedback mechanism that boosts cochlear vibrations of low amplitude.

196 is critical for shedding light on collective vibrations of medium-range structures such as rings that

197 Vibrations of microstructures in viscous fluid are subje

198 py is a powerful tool for characterising the vibrations of molecular bonds and is therefore ideal for

199 The internal vibrations of molecules drive the structural transformat

200 f the electromagnetic field with the lattice vibrations of polar crystals are a promising platform fo

201 Here we show that the vibrations of seal whiskers may provide information abou

202 ntific exploration of the metabolism-induced-vibrations of single cells.

203 ra-layer hole transfer coupled with coherent vibrations of the 2D lattice, suggesting a mechanism of

204 After furosemide injection, the vibrations of the basilar membrane lost the best frequen

205 f detecting sounds that induce sub-nanometer vibrations of the hair bundle, below the stochastic nois

206 tening of the mode associated with amplitude vibrations of the order parameter, usually referred to a

207 gates toward the apex of the cochlea through vibrations of the organ of Corti complex.

208 of the spectral bands that correspond to the vibrations of the phosphate group of DNA.

209 ed by the body to damp the impact is through vibrations of the skeletal muscles.

210 ent of mechano-acoustic signals, from subtle vibrations of the skin at accelerations of around 10(-3)

211 nicity and intrinsic rattler-like low energy vibrations of Tl(+), resulting in ultralow kappa(L).

212 pling between large-amplitude coherent optic vibrations of Tl-rattlers along the c-axis, and acoustic

213 PhPs)-infrared (IR) light coupled to lattice vibrations-offering an unprecedented platform for contro

214 In contrast, a tactile stimulus (i.e. vibration on the skin) did not lead to a significant cha

215 tes a clear negative effect of anthropogenic vibrations on anuran communication, and the urgent need

216 adolinium, was employed to obtain mechanical vibrations on the PVDF cantilever under small thermal gr

217 ng from high-frequency nanoelectromechanical vibrations, on the order of 10 million g, to jet the sam

218 However, previous measurements found these vibrations only weakly depend on the functional state.

219 d in the 3D protein structure, are localized vibrations optimally coupled to the chemical reaction co

220 f unknown etiology, manifesting as pressure, vibration, or sound.

221 Corti is highly structured for transmitting vibrations originating from acoustic pressure and active

222 specifically probed by the oxyl's subsurface vibration, parallels that of the photocurrent.

223 ynamics simulations that resolve how quantum vibrations participate in an electron transfer reaction.

224 Respective vibration patterns due to mechanical and electrical stim

225 ry of the involved excited states and phonon vibration patterns is responsible for this phenomenon.

226 Interactions between the two vibration patterns were investigated by applying the two

227 nless DN, had comparable neurophysiology and vibration perception, but lower corneal nerve fibre dens

228 duced mechanoreceptor sensitivity as well as vibration perception.

229 This helps ensure that the vibration plate and cultureware, and thus collagen and M

230 tions close to the resonant frequency of the vibration plate and vibration damping beyond the resonan

231 The cultureware and vibration plate were designed using finite element analy

232 is presented that consists of: a bioreactor vibration plate, calibrated and optimised for nanometre

233 rmal attachment to the bioreactor's magnetic vibration plate.

234 Molecular vibrations play a critical role in the charge transport

235 Furthermore, hardening of a low-frequency vibration points to a photoinduced ferroelectric phase t

236 Ambient mechanical vibrations produce large stresses in cantilevers resulti

237 e I provide a brief overview of the study of vibrations produced by bees and their effects on pollen

238 were used to assess the effects of substrate vibrations produced by two sources of anthropogenic acti

239 assed control of elastic waves, ranging from vibration protections to ultrasonic sensing and evaluati

240 Notably, the free OH vibration provides evidence for stronger dispersion inte

241 B1 cells) that are postsynaptic to antennal vibration receptors.

242 and temporal cues from skin indentation and vibration respectively.

243 us signals to the brain and amplify cochlear vibrations, respectively.

244 ents initial FE analyses of (Part 1) dynamic vibration responses of new HGon meta-structures compared

245 between the hydrogen stretching and bending vibrations, resulting in an effective weakening of the O

246 suitable for low frequency and low amplitude vibration sensing.

247 Exquisitely sensitive, vibration-sensing neurons are associated with Meissner's

248 Ush2a(-/-) mice, showed large reductions in vibration sensitivity.

249 of the composite was exploited to produce a vibration sensor sensitive to low-frequency (~1 kHz) exc

250 For the fiber vibration sensor, the proposed numerical model shows tha

251 ermitting applications in soft actuators and vibration sensors.

252 1), while rats compared the intensity of two vibrations separated by an interstimulus delay.

253 ntriguing because apical cochlear mechanical vibrations show little compression, and mechanoelectrica

254 O-Au NPs) greatly enhanced the CO stretching vibration signal at 2100cm(-1), which is relatively free

255 ar system(4), and the observation of lattice-vibration softening as ice is compressed(5,6).

256 s an unprecedentedly high scattering rate of vibration states, as confirmed by the highest elastic co

257 Moreover, the firing rate during sinusoidal vibration stimuli at low amplitudes was higher in the pr

258 for the disabled, because the simple throat vibrations such as hum, cough and scream with different

259 c transitions strongly couple to phonons and vibrations, such as energy transfer in photosynthetic pi

260 as precision engineering components such as vibration-suppressing platforms, supports for rotary com

261 weight and tunable properties with broadband vibration suppression and wave attenuation abilities are

262 Sound vibration (SV), a mechanical stimulus, can trigger vario

263 , especially for low frequency and amplitude vibrations, thanks to its compactness, simplicity, cost-

264 is often strongly coupled to intramolecular vibrations that can promote, suppress and direct electro

265 activation energy, and is likely due to fast vibrations that may be enabled by water mobility on the

266 Human activity causes vibrations that propagate into the ground as high-freque

267 uning the frequency and the amplitude of the vibration, the dimer undergoes either a directed motion

268 Under a 2.5 Hz vibration, the peak open-circuit voltage reached 115 V u

269 t where a player's voice flares a membrane's vibration through oscillating air pressure.

270 dynamics can be strongly affected by lattice vibrations through electron-phonon coupling.

271 Vibrations through substrates are an important source of

272 ion suppresses local molecular rotations and vibrations, thus restricting the intermolecular energy t

273 of somatic sensation ranging from touch and vibration to pain and pressure.

274 earned behaviours to generate high-frequency vibrations to release pollen from flowers with specialis

275 kovian coupling of 'environmental' molecular vibrations to the electronic 'system' degrees of freedom

276 With the rise in popularity of whole-body vibration training exercise, it is important for the med

277 We believe that high-force vibration training may cause retinal tears in susceptibl

278 of vitreous hemorrhage following whole-body vibration training, he is the first to show a close asso

279 tear and vitreous hemorrhage with whole-body vibration training.

280 ges after completing a session of whole-body vibration training.

281 tion changes as a function of airflow speed: vibrations transition from parallel to perpendicular wit

282 eta-tryptase makes mast cells susceptible to vibration-triggered degranulation by cleaving the alpha

283 The behavior of the OH stretching vibrations under pressure is profoundly affected by the

284 ved Raman spectra reveal anisotropic lattice vibrations under the corresponding straining conditions.

285 nitoring of H migration by following the N-D vibration using polarization-modulated infrared reflecti

286 ng organ generates substrate-borne broadband vibrations using fast, cyclical abdominal motion that tr

287 perimental measurements of the low-frequency vibrations using inelastic neutron scattering and terahe

288 ) by studying the local structure and phonon vibrations using synchrotron X-ray pair distribution fun

289 attices, high anharmonicity, and dissipative vibrations very similar to the 3D AMX(3) perovskites.

290 In this paper, HCC response to mechanical vibration via high-intensity focused ultrasound and a ch

291 dipoles, losing their energy to NaCl lattice vibrations via the electromagnetic near-field.

292 chemically specific intracellular molecular vibrations via ultrafast multicolor stimulated Raman sca

293 Degranulation induced by vibration was dependent on phospholipase C pathways, inc

294 talysis, suggesting that this rate promoting vibration was introduced during directed evolution.

295 o investigate the acute effect of whole-body vibration (WBV) on the reflex and non-reflex components

296 nfrared pump pulse tuned to a methylammonium vibration, we observe slow, nanosecond-long thermal diss

297 OHC vibrations were strongly rectified, and motility exhibit

298 high-frequency vibrations, and low-frequency vibrations which participate in ultrafast intersystem cr

299 steric hindrance of transverse fluoride ion vibrations, which directly controls the thermal expansio

300 in exceeds the values predicted for harmonic vibrations with the same root mean square (RMS) amplitud