ライフサイエンスコーパス: angular

1 inear [3]phenylene, benzo[b]biphenylene, and angular [4]phenylene have BD(T)/cc-pVDZ//(U)BLYP/cc-pVDZ

2 While angular 5,6-diethynylquinoxalines gave exclusive C(1)-C(

3 gen lone pair and proximal radical center in angular 5,6-diethynylquinoxalines.

4 locks and by mathematical simulations of the angular absorbance dependence.

5 Our results on the angular absorption dependence were verified by both site

6 impact= 1013; 95% CI, 621 - 1578; P < .001]; angular acceleration, 7589 radian/s2 vs 65016 radian/s2

7 s the dorsolateral prefrontal cortex and the angular and cingulate gyri.

8 activation of rhodopsin involve a variety of angular and linear motions such as torsion, unwinding, a

9 lls and the realization of the importance of angular and linear movement-integration in generating sp

10 determined protomer model is subject to full angular and spatial search within the symmetry space.

11 rior to SMM: It can explain the experimental angular and temperature dependence, whereas SMM cannot d

12 ical and behavioural evidence indicates that angular and translational path integration contributes t

13 Angular and translational velocity signals were integrat

14 enoids are fused through two CBDs in linear, angular, and bent regioconnectivity.

15 e of aza[9]helicene, along with the expected angular-angular cyclization, three other products involv

16 ted in smooth reaction, and only the desired angular-angular product was detected.

17 All of the compounds formed by angular-angular, angular-linear, and linear-linear modes

18 Thus, our new, to our knowledge, angular approach SICM allows imaging of living cells on

19 Using this angular approach SICM, we obtained topographical images

20 observed in the analysis of forward-backward angular asymmetry of low energy electron emission.

21 es modulated by a decaying exponential, with angular attenuation by a modified cardioid.

22 sarcomere lattice and distorts myofibrillar angular axial orientation.

23 axation dispersion (NERRD) experiments probe angular backbone motion, while Bloch-McConnell relaxatio

24 n non-conventional spectral distribution and angular beam emission patterns not achievable with conve

25 The overall data indicates extended angular benzannelation effectively renders Bergman cycli

26 The effect of extended linear versus angular benzannelation on reaction pathway shows in the

27 coefficient in the model (I2, describing the angular change of the backscattering intensity in the mo

28 to a geometrical organization that we term "angular coalescence." Based on this phenomenon, we propo

29 cations as rigid nodes, the pure distinctly angular components readily form homoleptic cages, a [Pd2

30 nalyze HPAI H5N1 transmission directions and angular concentration of currently circulating viral cla

31 nanoantennas has become increasingly mature, angular control of nonlinear radiation using nanoantenna

32 ities in big data can also infer the network angular coordinates of the hyperbolic model according to

33 Yet, inferring the angular coordinates to map a real network back to its la

34 oprotein constructs using (111m)Cd perturbed angular correlation (PAC) of gamma-rays and (113)Cd NMR

35 tes over genetic drift; (2) a characteristic angular correlation describing the size of genetic domai

36 idal packings by statistically analyzing the angular correlations in an ensemble of scanning transmis

37 -MHz transducer array, attaining 135 degrees angular coverage.

38 r such a Ag FTNW, the intrinsic 7.35 degrees angular deficiency results in an inhomogeneous strain fi

39 1), circumferential extent of false lumen in angular degrees (HR 1.03 per degree, 95% CI: 1.01-1.04,

40 The angular dependence of R2* and R2 using the CFM could pot

41 Here, Liu et al. report a surprising angular dependence of the interlayer magnetoresistivity

42 opic magnetoresistance (AMR) with a harmonic angular dependence on the writing magnetic field angle,

43 dence on the magnetic field and shows little angular dependence.

44 Here we study angular dependences of waveform-selective metasurfaces b

45 his material are found to exhibit surprising angular dependences under high fields, which can be well

46 microstructure, and its consequences on the angular dependent magnetization reversal.

47 irection orthogonal to the rips, inducing an angular-dependent change in the reversal mechanism.

48 ization reversal characteristics captured by angular-dependent first order reversal curve measurement

49 d power, due to a small nonuniformity in the angular detection sensitivity.

50 Linear and angular differences for the chin was measured and report

51 N-Bmim(+) exhibits two periods of restricted angular diffusion (wobbling-in-a-cone) followed by compl

52 ection cell system appears essential for the angular disambiguation by place cells of visually identi

53 t increased as biomechanical constraints and angular disparity decreased, providing evidence that bio

54 nd demonstrate consistent, causal effects on angular dispersion and brain-wide functional connectivit

55 eshold energy, linewidth, phase diagram, and angular dispersion are verified.

56 In Study 1 (N = 24), we show that angular dispersion covaries with pupil diameter, an inde

57 rom the same category, as well as reduce the angular dispersion of object representations from distin

58 king is bounded from above by a sixth of the angular dispersion present in the initial configuration.

59 s in the human ventral temporal cortex using angular dispersion, a powerful, multivariate metric of r

60 ing catecholaminergic gain should reduce the angular dispersion, and thus increase the precision, of

61 adius represents the node centrality and the angular displacement between two nodes resembles their t

62 a greater median velocity, displacement, and angular displacement than antennae.

63 otation is characterized by a broad range of angular displacements with no residence time at any give

64 information obtained from scatter plots and angular distance maps, showing variations in the nickel-

65 dicate a 0.015 odds ratio against an aligned angular distribution compared to an isotropic one.

66 N(+) channels of N2, we observe an opposite angular distribution development in these two channels,

67 ntial transitions and find that the opposite angular distribution development is due to the different

68 By measuring the angular distribution of dissociation fragments from two

69 The isotropic angular distribution of OH fragments indicates that diss

70 that encodes a wealth of information in the angular distribution of outgoing fragments.

71 One signature of such environments is the angular distribution of the black hole spins.

72 ddition, the diffraction patterns reveal the angular distribution of the molecules, which changes fro

73 f the head groups and also suggests that the angular distribution of the transition dipole moments is

74 ar structure information using photoelectron angular distributions (PADs) that have averaged over par

75 Our measured angular distributions and intensity dependence show that

76 C2D4 and C2D6 reveals that the photofragment angular distributions can only be understood when the fi

77 Here, we present measurements of energy and angular distributions of absolute double differential el

78 For coronene, the angular distributions of the low energy electrons are qu

79 Scattering angular distributions showed a dramatic stereodynamic pr

80 t is accomplished by measuring photoelectron angular distributions within the frame of the molecule,

81 at bright coherent high-order harmonics with angular divergence smaller than 1 mrad are generated, fo

82 Here we rectify this using an angular effective mass formalism that we have developed.

83 ow threshold current density, unconventional angular emission and optical bistability.

84 s that control the emission spectrum and the angular emission pattern is of fundamental importance.

85 Additionally mean angular error maps were also plotted using automated cro

86 ring looming stimuli reveals that it encodes angular expansion velocity, whereas other input cell typ

87 s, ii) linearization of cristae and abnormal angular features, iii) concentric layering of cristae me

88 approximately 350 nm of the binding site and angular fluctuations within approximately 30 degrees of

89 n rate from 25 mV s(-1) to 200 mV s(-1), and angular frequency from 100 rpm to 6400 rpm).

90 "Archimedean" spirals, with a constant angular frequency within each scan, are used to determin

91 oncerning whether the intrinsic 7.35 degrees angular gap could be compensated homogeneously through p

92 reas of posterosuperior, middle temporal and angular gyri corresponding to Wernicke's area.

93 Here, we test the hypothesis that the angular gyrus (AG) is critical for integrating semantic

94 associated with a buildup of activity in the angular gyrus (AG) that predicted memory 24 h later.

95 nce that functionally distinct subregions of angular gyrus (AnG) contribute to the retrieval of episo

96 f investigation indicates the involvement of angular gyrus (AnG) in the retrieval of both episodic an

97 coding and retrieval can be decoded from the angular gyrus (ANG), a subregion of posterior lateral pa

98 ed in the sense of self and agency), and the angular gyrus (involved in language) is thus related to

99 We suggest angular gyrus activation reflects the experiences of age

100 volved during spatial attention and the left angular gyrus and anterior cingulate cortex during motor

101 ts, only target-specific semantic effects in angular gyrus and MTG.

102 o long events in high-order areas (including angular gyrus and posterior medial cortex), which repres

103 Therefore, the angular gyrus appears to recombine consolidated schema c

104 dividual differences in the structure of the angular gyrus in healthy adults are related to variabili

105 ndings demonstrate a causal role of the left angular gyrus in lexical-semantic integration and provid

106 s are the first to demonstrate that the left angular gyrus is critical for both episodic simulation a

107 trated that temporary disruption of the left angular gyrus leads to impairments in simulation and mem

108 y tasks also increased after TMS to the left angular gyrus relative to the vertex.

109 ontrol site (vertex), disruption of the left angular gyrus significantly reduced the number of intern

110 ess whether temporary disruption of the left angular gyrus would impair both episodic simulation and

111 pocampus, medial prefrontal cortex, and left angular gyrus, among other regions.

112 FG) and of semantic competition in MTG, left angular gyrus, and IFG.

113 Rolandic operculum, superior parietal gyrus, angular gyrus, and middle temporal pole.

114 of agency, no priming-related activation of angular gyrus, and no priming-related changes in fronto-

115 ctional connectivity with the precuneus, the angular gyrus, and the temporal visual cortex Brodmann a

116 rieval precision scaled with activity in the angular gyrus, and vividness judgments tracked activity

117 hology averaged from three cerebral regions (angular gyrus, mid-frontal cortex, and anterior cingulat

118 ior frontal gyrus, medial prefrontal cortex, angular gyrus, posterior MTG, and medial temporal lobes.

119 ivity in the superior temporal gyrus and the angular gyrus, respectively.

120 a subregion of lateral parietal cortex, the angular gyrus, supported successful reconstruction of pe

121 d connectivity between frontal areas and the angular gyrus.

122 pocampus, medial prefrontal cortex, and left angular gyrus.

123 e. episodic memory: medial temporal lobe and angular gyrus; semantic memory: left anterior temporal r

124 tal canals, which are primarily sensitive to angular head rotation in the horizontal (yaw) plane, are

125 and physiology provide a means to rotate an angular heading estimate based on the fly's angular velo

126 Many animals keep track of their angular heading over time while navigating through their

127 heptaketide backbone and cyclize it into the angular, hemiketal-containing naphtho-gamma-pyrone preph

128 ridges as the critical factor for producing angular independent color.

129 clinically healthy adults, we show that the angular information in spin-echo T2 is consistent with t

130 Changes in the amount of angular information in visual cues induced corresponding

131 Indeed, DFT calculations revealed that the angular ligands and strict Pd(II) geometry strongly favo

132 of the compounds formed by angular-angular, angular-linear, and linear-linear modes of cyclization w

133 We show, through a combination of angular magnetization and magneto-optical domain imaging

134 The angular methyl groups were attached by electrophilic cyc

135 displacement misalignment, 45 degrees x-axis angular misalignment, or 45 degrees y-axis angular misal

136 s angular misalignment, or 45 degrees y-axis angular misalignment.

137 text]) motion of the pairs with the internal angular momenta [Formula: see text] of the iron orbitals

138 pering gallery modes (WGMs) that carry large angular momenta and travel along the boundaries.

139 ising from coupling between orbital and spin angular momenta in f orbitals.

140 ising from coupling between orbital and spin angular momenta in lanthanide f orbitals.

141 irectional effect produces different orbital angular momenta in opposite directions upon excitation-s

142 travel between optical modes with different angular momenta within a few picoseconds.

143 y with time as the stars steadily lose their angular momenta.

144 uantum suppression of the reaction at higher angular momenta.

145 f the plasmonic vortex are determined by the angular momentum (AM) of the light, and the geometrical

146 se front carry a quantized amount of orbital angular momentum (OAM) and have become important in vari

147 Electron waves that carry orbital angular momentum (OAM) are characterized by a quantized

148 red and visible light beams carrying orbital angular momentum (OAM) are currently thoroughly studied

149 iplexing and transmitting four green orbital angular momentum (OAM) beams through a single aperture.

150 These elements-SAM-to-orbital angular momentum (OAM) converters-are based on the geome

151 Electromagnetic waves carrying orbital angular momentum (OAM) have been used for mode division

152 Exact eigen modes with orbital angular momentum (OAM) in the complex media of unmagneti

153 The effective generation of orbital angular momentum (OAM) lasing, especially at a micro- an

154 ters can be realized using synthetic orbital angular momentum (OAM) lattices in degenerate cavities.

155 coding off-axis points with discrete orbital angular momentum (OAM) modes is investigated.

156 hat has received interest is that of orbital angular momentum (OAM) modes.

157 alignment is even more important for orbital angular momentum (OAM) multiplexing systems since misali

158 put communication approach using the orbital angular momentum (OAM) of acoustic vortex beams with one

159 Orbital angular momentum (OAM) state of photons offer an attract

160 lable multichannel superpositions of orbital angular momentum (OAM) states with various topological c

161 Optical vortices, which carry orbital angular momentum (OAM), can be flexibly produced and mea

162 These light beams, which carry orbital angular momentum (OAM), have been successfully utilized

163 Optical elements that convert the spin angular momentum (SAM) of light into vortex beams have f

164 isted Laguerre-Gaussian lasers, with orbital angular momentum and characterized by doughnut-shaped in

165 gineer their bond length, vibrational state, angular momentum and orientation in a small electric fie

166 from the entanglement of the optical orbital angular momentum and radial profile degrees of freedom p

167 ique for the generation of broadband orbital angular momentum and radially polarized beams.

168 sic and extrinsic components of the photon's angular momentum at short-wavelengths.

169 l phenomenon, resulting from the transfer of angular momentum between interacting light and matter in

170 t of dipolar-interaction-induced transfer of angular momentum between the J=0 and J=1 internal partic

171 that not only does the beam contain orbital angular momentum but can trivially be converted to a rad

172 ull many-body dynamics of the acquisition of angular momentum by a gas of ultracold bosons in two dim

173 d highlights the importance of tuning of the angular momentum compensation point of ferrimagnets, whi

174 dynamics is realized in ferrimagnets at the angular momentum compensation point TA.

175 e show that pseudospin can turn into orbital angular momentum completely, thus upholding the belief t

176 Angular momentum conservation follows immediately.

177 r-wave plate devices empower spin to orbital angular momentum conversion and vector polarization form

178 and that it leads to unequal spin to orbital angular momentum conversion in magneto-optic media evane

179 is minimized through the formation of higher angular momentum Cooper pairs, with Fermi surface nodes

180 We show that transverse-spin to orbital angular momentum coupling into magneto-optic waveguide m

181 odes with entangled polarisation and orbital angular momentum degrees of freedom.

182 we estimate that the distribution of orbital angular momentum entanglement over more than 100 km of f

183 cient control over the conversion of optical angular momentum from spin to orbital form in a metasurf

184 induce a large lunar inclination and remove angular momentum from the Earth-Moon system.

185 However, the true dynamics of angular momentum in finite, interacting many-body system

186 ve key questions such as the conservation of angular momentum in highly nonlinear light-matter intera

187 investigate the conservation of the orbital angular momentum in necklace and elliptical rotating bea

188 Vortices are essential to angular momentum in quantum systems such as ultracold at

189 We conclude that only angular momentum induced optically by the inverse Farada

190 reconfiguration of the orbital and internal angular momentum into a high spin ([Formula: see text])

191 These flows are thought to deposit gas and angular momentum into the circumgalactic medium, creatin

192 echanisms of vortex nucleation and show that angular momentum is hidden in phantom vortices modes whi

193 articles nor that of the excitation; rather, angular momentum is introduced by the particle's interac

194 The wave angular momentum is transferred to floating micro-partic

195 Here, we show the transmission of orbital angular momentum modes of light over a distance of 143 k

196 a Kramers doublet and quartet with effective angular momentum of J eff = 1/2 and 3/2, respectively.

197 cs that governs the interactions between the angular momentum of photons and the magnetic order param

198 The equations governing the angular momentum of the ball relative to the point of co

199 For example, to minimize spin (angular momentum of the body) at takeoff, plant-sucking

200 which allows them to interact with the spin angular momentum of the impinging light field.

201 a plethora of applications based on orbital angular momentum or vector polarization, such as optical

202 r converting arbitrary SAM states into total angular momentum states characterized by a superposition

203 te entanglement swapping of multiple orbital angular momentum states of light.

204 such as the energy, the wave number, and the angular momentum through the bifurcations.

205 ttributed to magnetic circular dichroism and angular momentum transfer between sublattices.

206 Orbital angular momentum transfer is also shown to rotate a levi

207 ocities and the initial and final rotational angular momentum vectors of HD provides insight into the

208 switching of the magnetisation with optical angular momentum was demonstrated recently.

209 in optical waveguides carry transverse spin angular momentum which is also locked to the propagation

210 Pure spin current, a flow of spin angular momentum without flow of any accompanying net ch

211 These particles have their spin, or internal angular momentum, aligned either parallel or antiparalle

212 As they become older, stars lose mass and angular momentum, resulting in an observed slowdown in s

213 e beam diffraction and from the beam orbital angular momentum.

214 iple electrons, which can also carry orbital angular momentum.

215 ses a helical wave front and carries orbital angular momentum.

216 fronts such as vortex beams carrying orbital angular momentum.

217 tation vanes can provide the air inflow with angular momentum.

218 hibit elliptical orbits with nonzero orbital angular momentum.

219 e existing methods for measuring the orbital-angular-momentum (OAM) spectrum suffer from issues such

220 We explore the use of orbital-angular-momentum (OAM)-multiplexing to increase the capa

221 reover, we show that Bessel-Gaussian orbital-angular-momentum beams are more tolerant to obstructions

222 rant to obstructions than non-Bessel orbital-angular-momentum beams.

223 on model, but supports the high-energy, high-angular-momentum giant impact model for the origin of th

224 ant impact and therefore a high-energy, high-angular-momentum impact.

225 a sudden and large increase in the energy of angular-momentum states in circular graphene p-n junctio

226 ling' Bessel-Gaussian beams carrying orbital-angular-momentum to overcome limitations in obstructed f

227 r tidal evolution model supports recent high-angular-momentum, giant-impact scenarios to explain the

228 formulation of nonreciprocal transverse-spin angular-momentum-density shifts for evanescent waves in

229 de of collective migration known as coherent angular motion (CAM).

230 nsors responsible for detecting and encoding angular motion of the head in 3D space.

231 ave equation and predicts canal responses to angular motion, sound, and mechanical stimulation.

232 Water angular motions in bassanite exhibit temperature-depende

233 erived from high spectral and temporal multi-angular observations, and vegetation light use efficienc

234 ileged role for vestibular cues during human angular orientation.

235 illator, and the induced dipole models), the angular overlap model, and valence bond-based models.

236 approximately 70%, but had little impact on angular PAHs.

237 oupled to the dynein ring, we determined the angular position of the ring and found that it rotates r

238 misphere lesions in 18 patients on perceived angular position, velocity and motion duration during wh

239 agonfly's head continuously track the prey's angular position.

240 ile of the A-type was closely similar in the angular positions of accelerations and decelerations to

241 converge to a single point for two different angular positions.

242 grains which were prepared by equal channel angular pressing (ECAP) for 2 and 16 passes at room temp

243 ay, with larger C(1)-C(6) preference for the angular quinoxalenediynes due to gain of a new aromatic

244 ehaviour in the full temperature, field, and angular range and demonstrating that, despite the lower

245 g is commanded at a rate proportional to the angular rate of the line-of-sight between the attacker a

246 mal human intervention and also incorporates angular refinement to reduce the tilt angle error.

247 nts showed out-of-field relapse and 1 showed angular relapse.

248 In addition to passive angular reorientation, we observed a diverse repertoire

249 We also used MR tractography based on high-angular resolution diffusion imaging and diffusion spect

250 We used high angular resolution diffusion-weighted imaging (DWI) to e

251 e single photons to massive objects, enhance angular resolution, and highlight OAM as a promising way

252 t intragranular levels with high spatial and angular resolution.

253 The dependencies of the angular resolved ion flux and energy were also investiga

254 model numerical results and the analysis of angular-resolved photoemission experiments on a cuprate

255 Here, we report on a method to obtain angular-resolved small angle x-ray scattering distributi

256 ilms shows an unprecedented control of their angular response.

257 c systems to implement tailored spectral and angular responses, these results hint at promising appli

258 s need to have a minimal amount of effective angular rigidity in order for cells to perform the vario

259 locity and motion duration during whole-body angular rotations in the dark.

260 of good signal-to-noise ratio and sufficient angular samples are desired.

261 his is largely due to the incoherence of the angular samples generated when the diffusion signals are

262 ubject to drastically increase the number of angular samples to improve ODF estimation.

263 version and report a broad spectrum with the angular Schmidt number 82.1.

264 echnique, we demonstrate measurements of the angular Schmidt spectrum of the entangled photons produc

265 generated Bloch surface waves have enhanced angular sensitivity compared to conventional polar angle

266 screening pigments that provide a restricted angular sensitivity of the photoreceptors may perform po

267 his numerical technique can produce the full angular set of quantitative polarimetric scattering char

268 ds are systematically mapped onto rounded or angular shapes, reflects a universal crossmodal correspo

269 anism, which employs recurrent loops with an angular shift, bears a resemblance to those proposed in

270 of 70 times the incident wavelength and the angular shifts of several hundred microradians.

271 d, the dragonfly assesses whether the prey's angular size and speed co-vary within a privileged range

272 long baseline radio interferometry yields an angular size of less than 1.7 milliarcseconds.

273 The angular size-speed criteria biases interception flights

274 ity, whereas other input cell type(s) encode angular size.

275 -nm-wide resonance is de-slanted in spectral-angular space to become a 60-nm-wide achromatic resonanc

276 ansverse wave vector) components into a full angular spectrum, and a digital optical phase conjugatio

277 The density of GBs strongly influences the angular spread and crystallographic orientation of TES-A

278 ptian fruit bats and discovered a systematic angular sweep of beam focus across increasing frequency.

279 ckle the 2-variant case, we exploit Fisher's angular transformation, which despite being discovered b

280 eripheral vestibular failure to update their angular travelled distance during active or passive turn

281 esired C2-symmetric gem-difluoromethylenated angular triquinanes 6 in good yields with high stereosel

282 esis of symmetrical gem-difluoromethylenated angular triquinanes is described.

283 amplification, vM1 activation also sharpened angular tuning of vS1 neurons in all cortical layers mea

284 el speech sound was large or small, round or angular, using a size or shape scale.

285 or, the cylindrical symmetry is echoed in an angular variation of this phase shift, allowing us to cr

286 The angular velocities of ATPase-dependent power strokes as

287 a novel neurally based model for estimating angular velocity (AV) in the bee brain, capable of quant

288 to distinguish between these models, and the angular velocity and geometry of the debris will be dire

289 tering and laminar consistency of linear and angular velocity encoding in multi-neuronal spiking acti

290 (Group I), and the other precisely encoding angular velocity independent of stimulus frequency (Grou

291 ces the ATPase operation, e.g. the 'no-load' angular velocity is ca. 400 rad/s anticlockwise at 4 mM

292 -type and F-type rotary motors, in which the angular velocity is limited by the rotary position at wh

293 Mycobacterium-specific domain decreased the angular velocity of the power-stroke after ATP binding.

294 at there is a range of values of the initial angular velocity of the shell for which chaotic trajecto

295 Unexpectedly, the angular velocity profile of the A-type was closely simil

296 ation that conjunctively encodes heading and angular velocity, and is excited selectively by turns in

297 The amplitude, angular velocity, and torque transients of bar-fixation

298 angular heading estimate based on the fly's angular velocity.

299 hmicity, but were significantly modulated by angular velocity.

300 By this method, we achieve beams with angular width 18 degrees or narrower, and transmission m