ライフサイエンスコーパス: harmonics

1 integration of simultaneous signal elements (harmonics).

2 man splitting and strong mixing of spherical harmonics.

3 resolved in rate-place profiles than higher harmonics.

4 he neuronal representation of individual HCT harmonics.

5 sist with a fundamental frequency and higher harmonics.

6 sed for higher pitch sounds with lower-order harmonics.

7 epend on the relative phase between resolved harmonics.

8 ith missing fundamentals and equal-amplitude harmonics.

9 de little or no representation of individual harmonics.

10 tages, and a high-frequency branch and their harmonics.

11 rimetry measurements of self-generated laser harmonics.

12 into simpler components, such as sinusoidal harmonics.

13 ents added to the standard level of coo call harmonics.

14 , edge reflections, and generation of higher harmonics.

15 ance in a discrimination task for coincident harmonics.

16 phire of the same order as the measured high harmonics.

17 damental frequency, together with its higher harmonics.

18 femtosecond-scale dynamics spanning multiple harmonics.

19 al characteristics will be imparted onto the harmonics.

20 oud in the 2D phasor plots of a few selected harmonics.

21 nsity while preserving the phase matching of harmonics.

22 lenge of spatial separation of the generated harmonics.

23 metals opens a link between solid and plasma harmonics.

24 ntial in terms of symmetry-allowed spherical harmonics.

25 e, and capable of sharing properly the power harmonics.

26 ency domain to a spectrum of high, odd-order harmonics.

27 the phase onto the emission of higher-order harmonics.

28 ut also by other parameters such as power at harmonics.

29 cilitates spectral analysis in terms of time-harmonics.

30 upling with the first-order, in-plane, Bragg harmonics.

31 ignal's fundamental frequency to that of its harmonics.

32 rily on viscoelasticity, film thickness, and harmonics.

33 or 14 listeners for complex tones containing harmonics 6-10 with F0s of 280 and 1400 Hz, presented di

34 As with B-mode harmonics, a model of microbubble destruction/replenishm

35 ginary components in each of the 4th to 12th harmonics after quantifying the charging current data us

36 ystem: the information provided by different harmonics allows estimating a model for describing the g

37 ations in neural representations of resolved harmonics along the auditory pathway.

38 nsformation of rate-place coding of resolved harmonics along the auditory pathway.SIGNIFICANCE STATEM

39 ons was mainly driven by spectrally resolved harmonics, although they also exhibited a weak but consi

40 Using high-order harmonics, an isotopic cluster of a heavy protein was re

41 In contrast, the higher order harmonics and dc aperiodic component are essentially dev

42 generalized integrator (MESOGI) suitable for harmonics and DC-offset estimation/rejection, is propose

43 ental data all converge for the higher order harmonics and establishes that the electrode kinetics ar

44 cy shifts (Deltaf) were measured at multiple harmonics and evaluated using principal component analys

45 narily sensitive to the mistunings of single harmonics and exhibited significantly lower thresholds c

46 mation for acoustic stimuli with lower-order harmonics and higher f0 values.

47 o 16 cc/h) with intermittent pulse inversion harmonics and incremental triggering (1:1 to 1:8).

48 16 cc/h), with intermittent pulse inversion harmonics and incremental triggering.

49 pitch for acoustic stimuli with higher-order harmonics and lower f0 values and spectral information f

50 a lack of direct correspondence between high harmonics and nonlinear susceptibilities.

51 as 10(-7) measured for the fifth and seventh harmonics and observe that the harmonic intensities foll

52 cell and nucleus segmentation, and spherical harmonics and principal components analysis to distill c

53 ensitivity to complex shear stress frequency harmonics and provide a mechanism for the focal developm

54 forms of optimization applied to resolved AC harmonics and rely on experimenter experience to assist

55 reflecting close coupling between connectome harmonics and subjective experience.

56 n of the faradaic signal in the higher order harmonics and the fact that a single electrochemical exp

57 nvelope extraction [temporal] for unresolved harmonics) and that species differences in stimulus reso

58 nt production/suppression of even-/odd-order harmonics, and demonstrate the ability to probe the HHG

59 (harmonic templates [spectral] for resolved harmonics, and envelope extraction [temporal] for unreso

60 al timing, enhanced representation of speech harmonics, and less degraded response morphology in nois

61 cluded low volume, frequency shifts, missing harmonics, and production of click-like syllables.

62 roid 433 Eros, its lower order gravitational harmonics, and rotation state, using ground-based Dopple

63 listeners leads to less access to individual harmonics, and the coding schemes currently employed in

64 below 2 kHz, even when all of the individual harmonics are above 6 kHz--well above the currently acce

65 Harmonics are acoustically predictable, and thus form th

66 Harmonics are an integral part of music, speech, and voc

67 These harmonics are associated with a distribution of periodic

68 e found that spatiotemporal cues to resolved harmonics are available for F0 values between 350 and 11

69 that in humans, where the first five to nine harmonics are consistently resolved across most f0 value

70 eries in which the fundamental and remaining harmonics are filtered out.

71 that for subdelta task rhythms, oscillatory harmonics are invoked.

72 ond time scales, higher-order eigenmodes and harmonics are lost by transitioning to the millisecond t

73 errors demonstrated that even and odd-order harmonics are mainly attributed to screening current and

74 the fundamental frequency and first several harmonics are missing or attenuated, and peak frequencie

75 onstrate that the polarization states of the harmonics are not only determined by crystal symmetries,

76 imately 58 kHz and a more than 100(th)-order harmonics are obtained, with which the free-running freq

77 er metrics indicated that different response harmonics are partially independent, and their combined

78 mains possible even when spectrally resolved harmonics are presented at frequencies beyond the putati

79 A rate-place code, whereby resolved harmonics are represented by local maxima in firing rate

80 The dominant bend and twist modes and their harmonics are reproduced by a simple spring model, which

81 s are resolved at low f0 values and up to 16 harmonics are resolved at higher f0 values.

82 Results show that only the first four harmonics are resolved at low f0 values and up to 16 har

83 al bases of perceptual "pop out" of mistuned harmonics are unclear.

84 modes, the fundamental and first two higher harmonics, are characterized, resulting in tunable emiss

85 ) the amplitude increases and additional PLD harmonics arise to expand Bernal stacked domains separat

86 e study of near- and below- threshold regime harmonics as a potential source of intense coherent vacu

87 scrimination and extends previous results to harmonics as low as the sixth.

88 ited at the fundamental frequency and higher harmonics as revealed by their deflected contours, which

89 ture, thus paving the way for employing high harmonics as useful broadband tabletop light sources fro

90 onics at a frequency of 15 Hz and for all ac harmonics at a frequency of >/= 90 Hz.

91 theory are found in the sixth and higher ac harmonics at a frequency of 15 Hz and for all ac harmoni

92 mation techniques for extracting the current harmonics at selected frequencies, which suffer from eit

93 e nonlinear generation of correlated optical harmonics based on non-degenerate four-wave mixing with

94 Spherical Harmonics-based shape features to quantify the shape com

95 owest harmonic increases above about 6-8 and harmonics become less resolved.

96 tones with a low F0 but only high-frequency harmonics beyond the limits of phase locking.

97 The harmonics can be detected in vivo from nanogram quantiti

98 Here we show that harmonics can be enhanced by one to two orders of magnit

99 Here, the authors demonstrate that higher harmonics can be generated from amorphous solids.

100 cond laser in a high-pressure gas, ultrahigh harmonics can be generated, up to orders greater than 50

101 olled frequency comb of circularly polarised harmonics can be produced.

102 Higher harmonics can be used to increase the effective mass res

103 difference- and sum-frequencies (and second harmonics) can be generated in the microwave regime in a

104 de transducer successfully attenuates second harmonics caused by the ultrasonic equipment, thus demon

105 he wave functions given as series of spatial harmonics, converge very poorly.

106 rystal enable the generation of even and odd harmonics covering a wide range of photon energies betwe

107 We suggest that switching harmonics creates a discontinuity in the bats' perceptio

108 conversion efficiency that surpasses similar harmonics directly driven by the fundamental by two orde

109 The harmonics dispersion relation (HDR), derived by the theo

110 voltage overshoot, undershoot and the total harmonics distortion (THD) of the output current for the

111 grid-connected systems may cause significant harmonics distortion, instability, and reduction in powe

112 ields of higher intensities, with or without harmonics, dramatically alter the magnetic compass respo

113 microscopic single-atom yield, predicted for harmonics driven by longer-wavelength lasers, is compens

114 anges in the relative amplitudes of coo call harmonics during discrimination tests.

115 ated with the amplitude of stimulation power harmonics during the amplitude-adapted pulse train.

116 able to exhibit a sudden appearance of ultra-harmonics during the ultrasound excitation pulse.

117 same number of pulses as the number of high harmonics eliminated.

118 The onset of these tunable harmonics enables distinct computational tasks to be ass

119 -free and high-sensitivity imaging of second harmonics, enabling assessment of processes such as fibr

120 Higher-order optical harmonics entered the realm of nanostructured solids bei

121 nkers are determined by means of a spherical harmonics expansion and combined to get the form factor

122 rsion of the software for the real spherical harmonics expansion of a set of points in PDB format is

123 od uses the coefficients of a real spherical harmonics expansion to describe the shape of a protein's

124 across days and exist prior to experimental harmonics exposure, suggesting their formation during de

125 trated, this includes the generation of high harmonics extending into the vacuum-ultraviolet and extr

126 High-order harmonics extending to the X-ray region generated in a g

127 High harmonics extending to X-rays have been generated from g

128 se harmonic yields by several orders to make harmonics feasible in the near future as general bright

129 high-quality graded system, exhibiting Bloch harmonics, flat dispersion branches, ultraslow wave mode

130 ations with our recently developed spherical harmonics fluctuation analysis approach, we show a reduc

131 ive nonlinear optical origin of the observed harmonics for both bulk and thin flakes.

132 with a benefit of increased resolvability of harmonics for F0 discrimination and extends previous res

133 Using isolated harmonics for MPI and temperature imaging revealed an ap

134 unication and generate spatially distributed harmonics for sensing.

135 ptychographic imaging by combining multiple harmonics from an undulator synchtrotron source and an e

136 ently generate coherent circularly polarized harmonics from elliptically polarized pulses.

137 stematically manipulate individual frequency harmonics from human carotid shear stress waveforms appl

138 The generation of high harmonics from metals opens a link between solid and pla

139 Here we investigate high harmonics from semiconductors with controllable induced

140 placed approximately 5 bp from the AA and TA harmonics [(GCN(3)AA or TA)(n)].

141 In mice, harmonics, generally with two-tone components (two-tone

142 ine learning algorithm to analyze high-order harmonics generated by two-color laser pulses, we are ab

143 role of long-range periodicity by comparing harmonics generated from fused silica and crystalline qu

144 Second harmonics generation analysis indicated that collagen fi

145 Prior to tensile loading, second harmonics generation analysis of collagen fibers in PTCs

146 inear optical properties in which the second harmonics generation in the extended charge-transfer sys

147 Concatenation of [Formula: see text] such harmonics gives states of definite combined angular mome

148 try and comprehensive analysis of the higher harmonics has enabled us to access the redox processes r

149 nal quality of much birdsong, in which upper harmonics have relatively little energy, depends on filt

150 nnectome graph Laplacian, dubbed "connectome harmonics", have been shown to relate to the functionall

151 degraded neural encoding of formant-related harmonics (i.e., vowel quality) suggesting a differentia

152 ation of two key operando parameters (DeltaI(harmonics)/I(OER) and DeltaV(harmonics)) that can be fun

153 of a harmonic tone is dominated by resolved harmonics; (ii) pitch of resolved harmonics is sensitive

154 achieved using HARs composed of higher-order harmonics in addition to the fundamental and second harm

155 (Rana catesbeiana) to detect single mistuned harmonics in an otherwise periodic signal was studied.

156 ignment of corresponding neural responses to harmonics in clutter echoes) disrupts the bat's echo-del

157 recognition through matching of flight-tone harmonics in Culex mosquitoes and suggest that differenc

158 Higher harmonics in current-phase relations of Josephson Juncti

159 The explicit role of the power in these harmonics in determining the outcome of stimulation has

160 electronically misaligning first and second harmonics in echoes (to mimic the misalignment of corres

161 be readily applied to investigations of OAM harmonics in other processes, such as OAM cascades in Ra

162 Later stages would produce independent harmonics in subsequent straight sections.

163 ay reflection at wavevector q ~ 2pi/d or its harmonics in synchrotron-based scattering experiments in

164 ir flapping wings originates from the higher harmonics in the aerodynamic forces that support their b

165 haracterize a "rate-place" code for resolved harmonics in the auditory midbrain that is more robust a

166 Higher harmonics in the coherence spectra have been found to de

167 evel) requires the elimination of high order harmonics in the error term.

168 olution results in circularly polarized high harmonics in the far field.

169 first demonstration that power at high order harmonics in the frequency spectrum of electrical stimul

170 zation, spectrum, and temporal shape of high harmonics in the soft X-ray region by manipulating the d

171 perature (T), and time scale (frequency, via harmonics, in the range 10-110 MHz) were acquired.

172 ow that the repertoire entropy of connectome harmonics increases under DMT, as with those other psych

173 ference and repertoire entropy of connectome harmonics index the intensity of subjective experience o

174 frequency (F0), especially when they contain harmonics individually resolved by the cochlea.

175 The temporal window for harmonics integration in A2 was broadened by inactivatio

176 covered that information from the individual harmonics is combined so efficiently that performance ex

177 ever, the dynamical origin of in these lower harmonics is less understood and largely unexplored.

178 y resolved harmonics; (ii) pitch of resolved harmonics is sensitive to the quality of spectral harmon

179 l harmonicity; and (iii) pitch of unresolved harmonics is sensitive to the salience of temporal envel

180 ency spectrum, specifically the 0 th and 1st harmonics, is a significant regulator of inflammation, i

181 lts in the emergence of fractional nonlinear harmonics leading to broadband coherent white-light gene

182 or less at the male second and female third harmonics (M2:F3) are maintained both before and during

183 ection trajectory is contained in the higher harmonics, making it possible to filter the signal by "c

184 ts in a 6.2-electron volt separation between harmonics, markedly reducing the spectral overlap in the

185 o show that waveform asymmetry and frequency harmonics may generate artifactual n:m phase-locking.

186 atomic limit of the corresponding gas-phase harmonics measured under similar conditions.

187 In humans, females process a sound's harmonics more robustly than males.

188 ng disproportionately excites high frequency harmonics more than those near the note's fundamental.

189 tin exhibited low-angle diffraction peaks at harmonics of 67.6 nm, consistent with nucleation and gro

190 ction chamber's horizontal-plane fundamental harmonics of 76 and 101 MHz.

191 oellipsoids through generation of high-order harmonics of 800 nm, 60 fs pulses in the plasmas produce

192 Here we report high harmonics of 800-nm-wavelength light irradiating metalli

193 ral sounds, such as human voices, consist of harmonics of a common fundamental frequency (F0).

194 alogous to the fundamental frequency and the harmonics of a vibrating violin string.

195 an resolve, via a rate-place code, the lower harmonics of both HCTs, a prerequisite for deriving thei

196 rhythms, which cycle at the second and third harmonics of circadian frequency.

197 dom frequency deviations within the first 30 harmonics of each note.

198 , due to the nonresonant mechanism of higher harmonics of light inducement, can provide second and th

199 e observe exciton states dressed by up to 20 harmonics of magnons, resulting from their extreme nonli

200 m by MHz digitization and match filtering at harmonics of modulation frequency.

201 nguish between the fundamental frequency and harmonics of often highly non-sinusoidal neural oscillat

202 MSB uses the harmonics of oscillating mNPs as a metric for the freedo

203 that cause relaxation expressed as spherical harmonics of rank 2.

204 etrieve the complex amplitudes and phases of harmonics of single fixed-in-space molecules.

205 urement was varied directly by use of higher harmonics of the acoustic wave resonator and indirectly

206 sents a sum of sinusoidal frequencies at odd harmonics of the base frequency, the amplitude of which

207 uate the information contained in the higher harmonics of the coherence spectra.

208 s slow down their oscillation periods to the harmonics of the cycle length of the external mechanical

209 increased as the power in the high frequency harmonics of the different pulse waveforms increased, us

210 a to two dimensions using the complex-valued harmonics of the discrete Fourier transform (DFT).

211 In homogeneous media, the spatial harmonics of the dot array analyzed in the spatial Fouri

212 The carrier dynamics can produce high-order harmonics of the driving field extending up into the ext

213 near optical process--the generation of high harmonics of the driving laser frequency.

214 through a nonlinear fit to multiple spatial harmonics of the fluorescence recovery.

215 nation-sensitive neuron responds to multiple harmonics of the frequency-modulated (FM) components in

216 ing a femtosecond laser into a gas, and high harmonics of the fundamental laser frequency are radiate

217 ore intense laser pulse generates high-order harmonics of the fundamental laser, at wavelengths of ap

218 Ts was varied in small increments, such that harmonics of the HCTs fell either on the peak or on the

219 used to calculate k(0) from analysis of the harmonics of the higher-frequency data set, where the ta

220 each magnetic multipole exhibits distinctive harmonics of the PHE oscillation.

221 enabled through analysis of multiple spatial harmonics of the photobleaching pattern.

222 quency information provided by the different harmonics of the rectangular-wave signal, which can be e

223 nts within the response, including different harmonics of the response expansion.

224 ke time metrics and metrics based on Fourier harmonics of the response, were used.

225 phus philippinensis) echolocate at different harmonics of the same fundamental frequency.

226 e and phase of the response at the first two harmonics of the stimulus temporal frequency.

227 , which emphasize the high spatial frequency harmonics of the stimulus.

228 ng from the interference of the higher-order harmonics of the supercurrent.

229 y measured response amplitudes at the second harmonics of the two eye-tagging frequencies.

230 Musicians had heightened responses to the harmonics of the upper tone (E), as well as certain comb

231 Here, we report excitation of harmonics of vibration modes of solvent molecules by fem

232 vergence and focus position of the generated harmonics often strongly depend on their frequency, lead

233 Saline contrast with TTE using native tissue harmonics or transmitral pulsed wave Doppler have quanti

234 ping their vocal tract to narrowly focus the harmonics (or overtones) emanating from their vocal cord

235 chnique, simultaneous acquisition of spatial harmonics, or SMASH, was used to increase the spatial an

236 oice between a spatially coherent call (both harmonics originating from the same speaker) and a spati

237 scale lunar topography and gravity spherical harmonics outside these basins and show that the bulk of

238 rences for calls with two spatially coherent harmonics over alternatives with just one harmonic.

239 loes rubbing together, but variations in the harmonics over short time scales cannot be explained in

240 enhanced the neural representation of their harmonics, paralleling their improved perceptual segrega

241 However, the dynamical origin of these lower harmonics, particularly for the molecular systems, is le

242 e performance of our recently developed full-harmonics phasor method for unravelling partial-volume e

243 a synchrotron source, selecting two separate harmonics post sample using the Pixirad-1/Pixie-III dete

244 nds prevalent in vocalizations, specifically harmonics, preferentially activate the mouse secondary a

245 mental frequency from multiple low-frequency harmonics presented to high-frequency regions of the coc

246 a weak but consistent response to unresolved harmonics relative to noise; (3) the response of pitch-s

247 fined polarization state common for a set of harmonics required for formation of the circularly/ellip

248 vely, while the ones induced by fourth-order harmonics resemble magnifications and rotations.

249 dynamics induced by second- and third-order harmonics resemble smooth stretchings and translations,

250 agation simulations for circularly polarized harmonics reveal the influence of the finite phase-match

251 ed helically phased beam into its high-order harmonics, showing that each harmonic order carries the

252 ency and dissipation data for the first four harmonics, shows good agreement for the supersaturations

253 Deep-ultraviolet (UV) second-harmonics (SHs) have important applications in basic phy

254 referred condition can generate their second harmonics so as to trigger the diffuse auroral electron

255 irect and exact prediction of the collective harmonics spectrum in the frequency-wave number domain a

256 anced shape descriptors, including spherical harmonics (SPHARM).

257 cs manifest as the development of a chain of harmonics statistically phase coupled to the theta oscil

258 amplification systems generating fictitious harmonics that are difficult to discern from pure nonlin

259 ually small for complex tones containing low harmonics that are resolved in the auditory periphery, b

260 structure in both the first and second laser harmonics that can evolve on intra-pulse time-scales.

261 ying Levich behavior, fundamental and second harmonics that contain details of the double layer capac

262 Harmonics that extend up to orders of about 300 have bee

263 the launched beam and also the higher-order harmonics that were not reported previously can become i

264 was strongest at the third of at least four harmonics that were strongly entrained.

265 nds are periodic and consist of frequencies (harmonics) that are integer multiples of a common fundam

266 ameters (DeltaI(harmonics)/I(OER) and DeltaV(harmonics)) that can be fundamentally linked to the alte

267 (with even lower values expected for higher harmonics); the challenge being to be still able to dete

268 specific combinations of frequencies (e.g., harmonics), theorized to rapidly abstract or filter for

269 built upon the D-dimensional hyperspherical harmonics; these form a complete basis on the [Formula:

270 The harmonics thus generated are also favourably phase-match

271 nventional theoretical models predict higher harmonics to be extremely sensitive to changes in barrie

272 tones were presented either diotically (all harmonics to both ears) or dichotically (even and odd ha

273 h the way speech formants modulate laryngeal harmonics to create different phonemes.

274 Thus, bats exploit harmonics to distinguish clutter echoes from target echo

275 ersion causes the relative phase between the harmonics to evolve.

276 to both ears) or dichotically (even and odd harmonics to opposite ears); the latter increases resolv

277 Electronically offsetting harmonics to realign their neural responses restores del

278 y to miniaturize solid-state sources of high harmonics to the subwavelength volumes.

279 tio of the area of the dominant peak and its harmonics to the total area of the magnitude spectrum.

280 tively characterized by calculating a global harmonics-to-noise ratio (HNR).

281 The utility of ML (in particular, Geometric Harmonics) toward learning input-output relationships of

282 e generate prominent heartbeat patterns with harmonics typically considered detrimental.

283 eneration in thin silicon samples, producing harmonics up to 19th order with a continuous spectral co

284 th oscillations, constraining even spherical harmonics up to degree four.

285 3.2 mum wavelength, we generate odd and even harmonics up to the 10th order, exceeding the bandgap of

286 We demonstrated the harmonics up to the 35th order (E = 50 eV) in case of si

287 With the generation of both high harmonics (up to 59 th order) and subharmonics (down to

288 Here we produce high harmonics using a space-varying polarized fundamental la

289 and simulated data were conducted across all harmonics using public domain freeware (MECSim).

290 llipticity dependence of the long trajectory harmonics we must include a sub-cycle change of the init

291 ith psychoacoustic findings in humans, lower harmonics were better resolved in rate-place profiles th

292 t in the probe sounds, but not when resolved harmonics were the main available cue.

293 frequency ranges (beyond 10-order heartbeat harmonics) where heartbeat information predominates over

294 lower pitch sounds composed of higher-order harmonics, whereas spectral cues are used for higher pit

295 a acquired by the OFA are rich of high-order harmonics, which offer higher mass resolving power than

296 d that athletes had enhanced encoding of the harmonics, which was greatest in the female athletes, an

297 sources that may also generate higher order harmonics, while leaving the transmission of other frequ

298 veguide such that bright coherent high-order harmonics with angular divergence smaller than 1 mrad ar

299 .79 microm, we generate circularly polarized harmonics with photon energies exceeding 160 eV.

300 We observed harmonics with very narrow linewidths, while calculation

301 suggest that the low-frequency, low-numbered harmonics within complex tones are of prime importance i