ライフサイエンスコーパス: harmonics

1 integration of simultaneous signal elements (harmonics).

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

3 epend on the relative phase between resolved harmonics.

4 ith missing fundamentals and equal-amplitude harmonics.

5 de little or no representation of individual harmonics.

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

7 rimetry measurements of self-generated laser harmonics.

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

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

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

11 rily on viscoelasticity, film thickness, and harmonics.

12 cilitates spectral analysis in terms of time-harmonics.

13 man splitting and strong mixing of spherical harmonics.

14 resolved in rate-place profiles than higher harmonics.

15 he neuronal representation of individual HCT harmonics.

16 sist with a fundamental frequency and higher harmonics.

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

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

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

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

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

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

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

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

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

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

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

28 16 cc/h), with intermittent pulse inversion harmonics and incremental triggering.

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

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

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

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

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

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

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

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

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

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

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

40 Harmonics are acoustically predictable, and thus form th

41 These harmonics are associated with a distribution of periodic

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

58 The harmonics can be detected in vivo from nanogram quantiti

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

80 Here we investigate high harmonics from semiconductors with controllable induced

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

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

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

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

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

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

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

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

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

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

91 Higher harmonics in current-phase relations of Josephson Juncti

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

157 The harmonics thus generated are also favourably phase-match

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

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

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

161 Electronically offsetting harmonics to realign their neural responses restores del

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

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

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

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

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

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

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

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

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

171 .79 microm, we generate circularly polarized harmonics with photon energies exceeding 160 eV.

172 We observed harmonics with very narrow linewidths, while calculation

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