ライフサイエンスコーパス: acoustic

1 ectronic device would open up a new world in acoustics.

2 primary auditory cortex (A1) to time-varying acoustic and CI signals in awake marmoset monkeys (Calli

3 ctly each neuron's responses to time-varying acoustic and CI signals, we found that individual A1 neu

4 Metamaterials with acoustic and elastic band gaps are of great interest to

5 ic hearing) can be used to estimate how well acoustic and electric hearing are combined.

6 These simulation results suggest acoustic and electric hearing may be more effectively an

7 n cochlear implant (CI) technology allow for acoustic and electric hearing to be combined within the

8 Performance was best when acoustic and electric hearing was combined in the same e

9 Different demonstrations of acoustic and electromagnetic rainbow devices have been p

10 This study presents an efficient acoustic and hybrid three-dimensional (3D)-printed elect

11 istent with the influence of scattering from acoustic and optical phonons.

12 mporally more precise, but the match between acoustic and represented signal decreased.

13 we report the observation of time dependent acoustic and ultrasonic spectral evolution, measured usi

14 spectral evolution, measured using resonant acoustic and ultrasonic spectroscopy, for both pre and p

15 iety of sensory modalities-including visual, acoustic, and chemical-to sense their environment and in

16 s of their (i) magnetic, (ii) optical, (iii) acoustic, and/or (iv) nuclear properties.

17 In comparison, the coagulation times of the acoustic aPTT and PiCT yielded an excellent correlation

18 Finally, the acoustic aPTT assay is the ''gold standard'' for a dose

19 ences of statistical patterns of language in acoustics are biased by the arbitrary, language-dependen

20 nt, where the Deltaf/DeltaGamma ratio of the acoustic assay demonstrates that dabigatran with FEIBA 5

21 pation'' (QCM-D) has been applied, while the acoustic assays namely ''activated Partial Thromboplasti

22 We show that DSL depth and acoustic backscattering intensity (a measure of biomass)

23 Here, we show that tree-crickets optimize acoustic baffles, objects that are used to increase the

24 njoyment, and sometimes a perceived sense of acoustic balance.

25 n, optical bandgaps and mechanically tunable acoustic bandgaps, high thermal insulation, buoyancy, an

26 the past fifty years, evolved from a simple acoustic based mass sensor to a powerful bioanalytical t

27 multiplex data transmission within a single acoustic beam generated by a transducer array, drastical

28 nt is fundamentally challenging for airborne acoustics because the sound speed (inversely proportiona

29 ive and individual acoustic traits: cohesive acoustic behaviours emerge in groups of more than six ma

30 ture (e.g. electromagnetic, gravitational or acoustic), BISER provides a novel framework for creating

31 ng up to 20 dB elevation in threshold in the acoustic brainstem response, so raising questions about

32 re we present spatial mapping of optical and acoustic, bulk and surface vibrational modes in magnesiu

33 with the optical qualities of graphene, its acoustic capabilities should inspire the development of

34 onses, envelope following responses, and the acoustic change complex evoked by an interaural phase in

35 014-2015 and 2015-2016), and we analysed the acoustic characteristics and behavioural contexts of the

36 n was heard, and not by a decision driven by acoustic characteristics of the vocalization.

37 Frogs and toads rely heavily on acoustic communication for coordinating reproduction and

38 Long-range acoustic communication is crucial to underwater applicat

39 Acoustic communication is fundamental to social interact

40 ing the information channels and capacity of acoustic communication.

41 d to improve the perception of formants, key acoustic components of animal calls that encode importan

42 ers, average scatterer diameter, and average acoustic concentration.

43 eptual phenomenon is reported, whereby prior acoustic context has a large, rapid and long-lasting eff

44 e recent statistics of varying sounds in the acoustic context.

45 a sound based on the global features of the acoustic context.

46 y quantum electrodynamics and optomechanics, acoustics, continuum mechanics, and atomic and optical p

47 e uncertainty), scattering coefficients, and acoustic contrast factors for nonfixed and fixed cells,

48 ignificance of these results in terms of the acoustic control of avian reproductive behavior is discu

49 We investigated the potential for honest acoustic cues in the bellows of adult American alligator

50 ned to investigate whether different sets of acoustic cues predict size and shape symbolism, respecti

51 In many vertebrates, acoustic cues to body size are encoded in resonance freq

52 cts and anuran amphibians, for instance, use acoustic cues to localize, orient toward and approach co

53 sound-symbolic judgments on specific sets of acoustic cues, extracted from speech sounds, which vary

54 the TVA's selectivity is based on low-level acoustic cues: compared to control sounds, vocal sounds

55 Passive acoustic data from 2008 to 2014 provided independent and

56 Acoustic deep scattering layers (DSLs) are prominent fea

57 Acoustic detection and recognition are known to mediate

58 The realization of acoustic devices analogous to electronic systems, like d

59 dology dramatically simplifies the design of acoustic devices and provides a key-step towards realizi

60 hitecture may be used to develop new quantum acoustic devices in which quantum information is stored

61 - optical devices as well as radio-frequency acoustic devices where piezoelectricity in aluminum nitr

62 applications of multi-functional topological acoustic devices.

63 We implement both spectroscopic and acoustic diagnostics to characterize the properties of u

64 eem to induce a selective sensory gain along acoustic dimensions that are functionally-relevant-here,

65 Previous experimental realizations of acoustic diodes and mechanical switches have used nonlin

66 A scalable process using high precision acoustic dispensing technology was validated to produce

67 Reducing acoustic disturbance by 50% combined with increasing Chi

68 utes an alternative path in the evolution of acoustic diversity to that of oscine vocal learning and

69 Here, by analysing shipboard Acoustic Doppler Current Profiler measurements along 137

70 rimental realization of an impedance matched acoustic double zero refractive index metamaterial induc

71 ng controlled sample amounts on demand using acoustic droplet ejection coupled with a conveyor belt d

72 system selectively and preferentially tracks acoustic dynamics concurrently at 2 timescales correspon

73 ion of syringeal skeleton motion and forces, acoustic effects of muscle recruitment, and calibration

74 We quantified the acoustic efficiency of all baffles within the naturally

75 method on a staggered grid to solve for the acoustic eigenmodes (field and frequency) of the vector-

76 The theory of the excitation of acoustic eigenmodes in multilayer ferroelectric structur

77 Unidirectional/asymmetric transmission of acoustic/elastic waves has recently been realized by lin

78 tween observed and predicted performance for acoustic-electric hearing) can be used to estimate how w

79 ould be minimized to maximize the benefit of acoustic-electric hearing, especially for EAS.

80 indicated water fluxes within the stem, and acoustic emission analysis, which indicated cavitation e

81 At 3.5 gigapascals, acoustic emissions are recorded from samples with up to

82 nly 5 vol% of antigorite suffices to trigger acoustic emissions, a laboratory-scale analogue of earth

83 n of the surrounding water and generation of acoustic emissions.

84 independent stimulus sets, with and without acoustic energy at the fundamental frequency.

85 Acoustic enrichment immediately after noise trauma preve

86 deficits can be improved by training, or by acoustic enrichment in animal models, but both approache

87 , music perception, and listening in complex acoustic environments.

88 essing to enable change-detection in complex acoustic environments.

89 sources is essential in navigating cluttered acoustic environments.

90 subjects are presented with visual /ba/ and acoustic /fa/ and hear /ba/ (illusion-ba), the visual in

91 easurements were significantly lower when an acoustic factor of 0.92 was applied (-33.6 mum vs Pentac

92 ng an extensive literature on the topic, the acoustic features and psychological mechanisms that give

93 ocess and discriminate behaviorally relevant acoustic features and sounds (e.g., spectrotemporal modu

94 response to the test song was seen when its acoustic features differed from the statistical distribu

95 ditional auditory neurophysiology has mapped acoustic features of sounds to the response properties o

96 research showed the propagation of low-level acoustic features of speech from posterior superior temp

97 th bronchial labia, contributes to different acoustic features such as spectral complexity, amplitude

98 enerating novel representations for specific acoustic features.

99 surfaces to generate any diffraction-limited acoustic field.

100 tative descriptor for velocity induced by an acoustic field.

101 Controlling acoustic fields is crucial in diverse applications such

102 Here we report a highly parallel acoustic flow cytometer that uses an acoustic standing w

103 ources (satellite telemetry data and passive acoustics) for both populations.

104 in two monkeys trained to perform a tactile-acoustic frequency discrimination task, including both u

105 We present a design of acoustic frequency filter based on a two-dimensional ani

106 primary dimension of auditory representation-acoustic frequency-might modulate basic auditory functio

107 ally and experimentally demonstrate that the acoustic gradient metasurface supports the negative refl

108 ace structures are utilized to build desired acoustic gradient metasurface, and the all-angle negativ

109 es or whilst foraging, and disruption to the acoustic habitat at these times could lead to adverse co

110 sers who do not have any functional residual acoustic hearing at low frequencies.

111 The input/output frequency range for acoustic hearing was 0.1-0.6 kHz.

112 rom our work, we expect to see novel uses of acoustics in metrology, sensing and signal processing.

113 In mammals, acoustic information arises in the cochlea and is transm

114 recorded by seismic and remote low-frequency acoustic (infrasound) stations, including the EarthScope

115 and MBDual revealed a higher ultrasound mean acoustic intensity than MBControl (p < 0.05), however MB

116 Importantly, acoustic interactions between multiple males differ from

117 The last part presents the importance of acoustic investigations for chemical engineering design

118 nd the relevance of ultrasound absorption in acoustic investigations is discussed.

119 argets from a stationary position, we played acoustic jamming signals, simulating calls of another ba

120 this research can increase the diversity of acoustic levitation and expand the application of acoust

121 Acoustic levitation in gaseous media provides a tool to

122 strate experimentally single-sided air-borne acoustic levitation using meta-layers at various bit-rat

123 The VGHA uses eye gaze to steer the acoustic look direction of a highly directional beamform

124 recent study has found that, despite strong acoustic masking from background noise, female treefrogs

125 s in Ni-Mn and Au-Fe have been reassessed by acoustic measurements of the magneto-mechanical damping

126 le mathematical expression is used to relate acoustic measurements to the geometrical features of a s

127 Additional acoustic measures, including temporal modulations and sp

128 The primary objective of acoustic metamaterial research is to design subwavelengt

129 s in nanoplasmonic devices to sound waves in acoustic-metamaterial waveguides, as well as fermions an

130 cal mechanisms leading to Willis coupling in acoustic metamaterials.

131 Our results support the use of active acoustic methods to estimate density, abundance, and bio

132 These results integrating nanoindentation, acoustic microscopy, and finite-element modeling for pro

133 as been so far limited to its coupling to an acoustic mode, sideband cooling, or levitation of micros

134 c molecule level, intramolecular coupling of acoustic modes, mediated by the underlying substrate, is

135 most information on NARW movements, passive acoustic monitoring (PAM) was used in this study in orde

136 By combining long-term acoustic monitoring data with AIS vessel-tracking data a

137 useful for species classification in passive acoustic monitoring efforts.

138 he implant, and safety can be achieved using acoustic monitoring for the presence of surface boiling.

139 50% of the IPIs found by manual (visual and acoustic) monitoring.

140 y-motor coupling complements the fundamental acoustic motor-sensory coupling via the environment in e

141 of mobile phone use with the risks of brain, acoustic neuroma, and parotid gland tumors.

142 which also predicts the scaling behavior of acoustic noise, the fraction of sliding contacts [Formul

143 at this instability is induced by endogenous acoustic noise, which tends to make contacts slide, lead

144 the effect of stimulus mode (electric versus acoustic) on the cortical responses.

145 sic coding schemes to represent time-varying acoustic or CI stimulation and provide new insights into

146 examined temporal changes in structural and acoustic parameters in male rock hyrax songs.

147 er design, ultrasound imaging and therapy or acoustic particle manipulation.

148 By studying acoustic phonon emissions from individual microcracking

149 this issue by reexamining records of emitted acoustic phonon events during rock mechanics experiments

150 r rattling mechanism, wherein strong optical-acoustic phonon scatterings are driven by a mixture of 0

151 significantly impacted the understanding of acoustic phonons by enabling their direct study with x-r

152 ns on either side of the interface, whereas, acoustic phonons directly coupling with high frequency o

153 It is revealed that acoustic phonons dominate the thermal transport, rather

154 d hole deformation potentials using coherent acoustic phonons generated by femtosecond laser pulses.

155 ng (BCDI) to resolve the 4D evolution of the acoustic phonons in a single zinc oxide rod with a spati

156 s in certain orientations), coupling between acoustic phonons in the fcc crystal and optical phonons

157 nterfaces where there is a better overlap of acoustic phonons on either side of the interface, wherea

158 rations of Tl-rattlers along the c-axis, and acoustic phonons that likely causes the low lattice ther

159 confirm that such bands arise from distinct acoustic phonons, connecting different valley states.

160 cs of intervalley scattering of electrons by acoustic phonons, which is essential for valley depolari

161 ich result from coupling between photons and acoustic phonons-are exceedingly weak in conventional na

162 to exhibit a linear dispersion (thus called acoustic plasmons) and a further reduced wavelength, imp

163 ic and social factors may play a role in the acoustic plasticity of female indris.

164 sponge presenting associated with visual and acoustic posturing found in several, geographically wide

165 m-enhanced MR imaging after sonication at an acoustic power of approximately 5 W.

166 While acoustic PPI remained intact and ABR thresholds recovere

167 e in the observed effects on cells, and that acoustic pressure appears to be concurrent with, but not

168 These sounds cannot be attributed to direct acoustic propagation from the upper atmosphere for which

169 oring data with AIS vessel-tracking data and acoustic propagation modelling, the impact of vessel noi

170 the antioxidant capacity, the mechanical and acoustic properties and the sensory perception were dete

171 s with dramatically different mechanical and acoustic properties via a soft strain.

172 ncluding its electrostatics, vibrational and acoustic properties, and the effects of solvent (ions an

173 the antioxidant capacity and the mechanical-acoustic properties.

174 The interaction of an acoustic pulse and the mechanical mode of the ring reson

175 date because of the competing natures of the acoustic radiation force and acoustic streaming on the p

176 c micro-elastography imaging system in which acoustic radiation force impulse imaging (ARFI) and shea

177 We report the development of an acoustic radiation force optical coherence elastography

178 asive modalities for assessing fibrosis (eg, acoustic radiation force pulse imaging or shear wave ela

179 underlying scientific principle is that the acoustic ratio (DeltaD/DeltaF) is a measure of the hydro

180 0 in the Gulf of California using autonomous acoustic recorders.

181 objective daytime cough frequency (from 24 h acoustic recording, Leicester Cough Monitor).

182 o species, to quantitatively demonstrate how acoustic recordings supported by spatio-temporal metadat

183 agnetic waves through the ME effect at their acoustic resonance frequencies.

184 oustically actuated antennas that couple the acoustic resonance of the antenna with the electromagnet

185 ed device that integrates a Fabry-Perot type acoustic resonator into a microfluidic channel to separa

186 s of a new class of microwave thin film bulk acoustic resonators with multiband resonance frequency s

187 bel-free 3D in vivo imaging by detecting the acoustic response of a photoexcited material.

188 diffused photons and detecting the resulting acoustic responses, it has not been demonstrated as a mo

189 eities in size, concentration and spacing of acoustic scatterers could predict treatment responses of

190 men and women, we investigate how a complex acoustic scene consisting of multiple speech sources is

191 ty environment, we investigate how a complex acoustic scene consisting of multiple speech sources is

192 representations and processing of a complex acoustic scene up through the hierarchy of the human aud

193 ng statistical regularities present in noisy acoustic scenes is an important biological strategy for

194 tial statistical regularity present in noisy acoustic scenes to reduce errors in signal recognition a

195 ncode and transmit information about complex acoustic scenes.

196 In recent years, however, distributed acoustic sensing (DAS) techniques have emerged to transf

197 Acoustic sensor operation in liquid, the native environm

198 ntifying behavioral responses with radar and acoustic sensors and modeling disorientation and attract

199 put to assess the influence of inhibition on acoustic signal representation.

200 mic property of silk can provide an airborne acoustic signal to a spider directly, in addition to the

201 s are basal primates that rely on chemo- and acoustic signalling for social interactions in their dis

202 ale Ae. aegypti, we test the hypothesis that acoustic signalling is a determinant of swarm morphology

203 Many species of bat emit acoustic signals and use information carried by echoes r

204 Rapid discrimination of salient acoustic signals in the noisy natural environment may de

205 thod that allows to measure such patterns in acoustic signals of arbitrary origin, without needs to h

206 vertebrates, lighter animals tend to produce acoustic signals of higher frequency than heavier animal

207 ect to attending to speech and other salient acoustic signals.

208 different time intervals jointly encode the acoustic similarity of both phonetic and speaker categor

209 Each temporal event explicitly encodes the acoustic similarity of phonemes, and linguistic and nonl

210 ll subregions during singing correlated with acoustic similarity to tutor syllables, suggesting a pro

211 n participants listened to speech of varying acoustic SNR and visual context.

212 During high acoustic SNR speech encoding by temporally entrained bra

213 -dimensional images using a stationary, real acoustic source aperture.

214 Discrete acoustic sources were sequentially addressed by scanning

215 sterior (and other) auditory areas represent acoustic space remains a matter of debate.

216 pment of power-efficient magnetoelectric and acoustic spintronic devices.

217 arallel acoustic flow cytometer that uses an acoustic standing wave to focus particles into 16 parall

218 sed laser, particle focusing using multinode acoustic standing waves, and a spatially arrayed detecto

219 An acoustic startle cue, a stimulus that engages the reticu

220 An acoustic startle cue, which engages the reticular system

221 in adult male and female mice and decreased acoustic startle response in a sex-dependent manner.

222 of THINs impairs prepulse inhibition of the acoustic startle response suggesting an important behavi

223 the marble burying task, elevated zero maze, acoustic startle response, and forced swim test.

224 Enhanced acoustic startle responses were observed among injected

225 ojections to antipsychotics, and an abnormal acoustic-startle response.

226 For cochlear implant users, combined electro-acoustic stimulation (EAS) significantly improves the pe

227 well as entrainment to rhythmic noise-burst acoustic stimulation in 14% of electrodes.

228 For instance, persistent acoustic stimulation produces sensory adaptation, which

229 to be combined within the same ear (electric-acoustic stimulation, or EAS) and/or across ears (bimoda

230 sticity can be reestablished in adulthood if acoustic stimuli are paired with disruption of ecto-5'-n

231 bit gradual reductions in their responses to acoustic stimuli that are temporally correlated with lic

232 Additionally, in hearing controls, acoustic stimuli were used to assess the effect of stimu

233 Listeners heard synthetic acoustic stimuli with temporally modulated structures at

234 y expands neural representations of enriched acoustic stimuli, a process important for human language

235 sounds while remaining sensitive to external acoustic stimuli.

236 natures of the acoustic radiation force and acoustic streaming on the particles.

237 We tested whether the acoustic structure could provide conspecifics with infor

238 rtex to extract these biologically important acoustic structures.

239 ferential use of specific rivers or lakes by acoustic-tagged lake sturgeon further subdivided individ

240 To target the issue, a novel emerging acoustic technology, namely ''Quartz Crystal Microbalanc

241 vement patterns of wild Eurasian perch using acoustic telemetry and studied their relationships with

242 Acoustic telemetry is one of the primary technologies fo

243 one unfished patch reef in Hawai'i, (2) used acoustic telemetry to determine fidelity of herbivorous

244 We used acoustic telemetry to monitor the vertical movement acti

245 Here, we use an unparalleled 11-y acoustic telemetry, stable isotope, and mark-recapture d

246 opportunity, tree crickets optimised baffle acoustics; they selected the best sized object and modif

247 Here we demonstrate real-space imaging of acoustic THz plasmons in a graphene photodetector with s

248 to abundance have impeded the use of passive acoustics to conduct quantitative assessments of biomass

249 ure did not change anxiety or response to an acoustic tone in adult male or female mice as compared w

250 rons prevented arousal to CO2, but not to an acoustic tone or shaking.

251 tructures like the hemolymph channel and the acoustic trachea as well as the extension of the tectori

252 ely to occur from 2012 to 2016 using passive acoustic tracking.

253 critically affects collective and individual acoustic traits: cohesive acoustic behaviours emerge in

254 Acoustic-transfection has advantages over typical sonopo

255 le live cells, providing the evidence of the acoustic-transfection technique for precise genome editi

256 ntrolled and local intracellular delivery to acoustic-transfection technique.

257 advantages over typical sonoporation because acoustic-transfection utilizing ultra-high frequency ult

258 Acoustic-transfection was further demonstrated to delive

259 d protein-9 nuclease (Cas9), a method called acoustic-transfection.

260 ultrasound pulses can be used for generating acoustic trapping force comparable to that with long pul

261 are vulnerable to a variety of insults like acoustic trauma and ototoxic drugs.

262 ignaling after aminoglycoside ototoxicity or acoustic trauma.

263 Recently, acoustic tweezers based on tightly focused ultrasound mi

264 pacity of the auditory system to encode fast acoustic variations through neural gamma activity, but r

265 La32Ce32Al16Ni5Cu15 bulk metallic glass, the acoustic velocities, measured up to 12.3 GPa using ultra

266 The high sensitivity of acoustic velocity to molecular rearrangements and ease i

267 coupled to a SAW cavity, realising a surface acoustic version of cavity quantum electrodynamics.

268 We observe two acoustic vibrational modes of gold nanoparticles from th

269 to recognize finger movement, hand gestures, acoustic vibrations, and real-time pulse wave.

270 using the orbital angular momentum (OAM) of acoustic vortex beams with one order enhancement of the

271 r of peripherally placed sources to generate acoustic vortex fields and stably levitate a wide range

272 The forces exerted by these acoustic vortex fields on a levitated water droplet are

273 tic levitation and expand the application of acoustic vortices.

274 coustic waves in the system relative to bulk acoustic wave (BAW)-based actuation, which suppresses Ra

275 In this work, we present a surface acoustic wave (SAW)-based device that integrates a Fabry

276 In this study, a shear horizontal surface acoustic wave (SHSAW) was used for the detection of food

277 and microfluidics are easily constructed for acoustic wave biosensors, such as the Love wave device d

278 it is piezoelectrically coupled to a surface acoustic wave cavity, realising circuit quantum acoustod

279 ng such a zero-index medium, we demonstrated acoustic wave collimation emitted from a point source.

280 y upon specific binding on the surface of an acoustic wave device.

281 Surface acoustic wave mediated transductions have been widely us

282 rimentally demonstrate a high-frequency bulk acoustic wave resonator that is strongly coupled to a su

283 s) to amplify the mass loading effect of the acoustic wave sensor to achieve a limit of detection of

284 HMF determination in honey, using a low cost acoustic wave sensor.

285 to demonstrate a novel type of leaky-guided acoustic wave that couples simultaneously to two indepen

286 The precisely measured acoustic wave travel times which were used to derive the

287 lower part of the MT film, penetrated by the acoustic wave, is able to detect a pronounced cationic d

288 find waveguide modes, and enables design of acoustic waveguides as well as seamless integration with

289 f solving for the elastic wave eigenmodes in acoustic waveguides of arbitrary cross-section is presen

290 tum information is stored in trapped on-chip acoustic wavepackets, and manipulated in ways that are i

291 It has recently been shown that surface acoustic waves (SAWs) can be piezoelectrically coupled t

292 cting objects, the evolution of the radiated acoustic waves carries information on the source.

293 The bulk acoustic waves in ME antennas stimulate magnetization os

294 AW-based excitation generates high-frequency acoustic waves in the system relative to bulk acoustic w

295 frequency separation of electromagnetic and acoustic waves using graded metasurfaces.

296 itous at interfaces with optical, seismic or acoustic waves, and also with electron, neutron or atom

297 uidic channel using shear-horizontal surface acoustic waves, producing an array of virtual electrodes

298 has been demonstrated in electromagnetic and acoustic waves.

299 icinity of the observer, and transduced into acoustic waves.

300 f focal LV hypertrophy (n=10; 10.3%) or poor acoustic windows (n=22; 22.7%) while overestimation resu