ライフサイエンスコーパス: coherent

1 tant but reciprocally connected regions, are coherent.

2 ations, are generated by a process involving coherent acceleration of electrons by slowly evolving, p

3 ectron and hole deformation potentials using coherent acoustic phonons generated by femtosecond laser

4 ction and subjective valuation - and examine coherent activity between relevant networks of brain reg

5 (PD) are linked to abnormally correlated and coherent activity in the cortex and subthalamic nucleus

6 ynaptic mechanism responsible for long-range coherent activity in the retina.

7 ecture allows one to build a prototype for a coherent adiabatic quantum computer with all-to-all Isin

8 fully programmable quantum device featuring coherent adiabatic quantum dynamics.

9 duce the most topologically and biologically coherent alignments.

10 th the solar wind typically assumes CMEs are coherent, almost solid-like objects.

11 we report that within a single brain region, coherent alpha oscillations link stimulus representation

12 ith silicate addition, a smooth, continuous, coherent and apparently amorphous iron oxyhydroxide surf

13 res for air travel need to be underpinned by coherent and enforceable national and international legi

14 a unique strategy to hierachically suppress coherent and incoherent phonon transport concurrently.

15 The coexistence of coherent and incoherent singlet fission may also reconci

16 e fields following stimulation by temporally coherent and incoherent tone sequences, and as changes i

17 chanical superposition states that are fully coherent and lack intermediate quantum state populations

18 We found significant, coherent and non-cell line specific changes in fatty aci

19 recognized as very useful tracers due their coherent and predictable behavior, to trace and evaluate

20 The combined results thus provide a coherent and quantitative picture of internal friction i

21 on framework is required that is accessible, coherent and user-friendly.

22 sing a mode of collective migration known as coherent angular motion (CAM).

23 transcription factors, located at spatially coherent anterior-posterior, dorsal-ventral, and medial-

24 Two nonlinear imaging modalities, coherent anti-Stokes Raman scattering (CARS) and sum-fre

25 ning electron microscopy (SEM) and multiplex coherent anti-Stokes Raman scattering (CARS) imaging via

26 water permeability in intact arteries, using coherent anti-Stokes Raman scattering (CARS) microscopy

27 Using coherent anti-Stokes Raman scattering and two-photon exc

28 Coherent anti-Stokes Raman scattering imaging of urine s

29 ion in C. elegans, revealed by hyperspectral coherent anti-Stokes Raman scattering microscopy.

30 ted axons were analyzed using stereology and coherent anti-Stokes Raman scattering microscopy.

31 d coherent anti-Stokes Raman, which exploits coherent anti-Stokes Raman sensitivity to coupling betwe

32 Combining ToF-SIMS imaging and coherent anti-Stokes Raman spectroscopy (CARS) microspec

33 plementary to coherent Raman methods such as coherent anti-Stokes Raman spectroscopy (CARS).

34 ales, using label-free polarization-resolved coherent anti-Stokes Raman, which exploits coherent anti

35 herently challenging for electrically large, coherent apertures.

36 SM1 activity was coherent at approximately 20 Hz with surface electromyog

37 In addition security is demonstrated against coherent attacks that are more general than the collecti

38 ic heating can be utilized for excitation of coherent auto-oscillations of magnetization and for gene

39 nstrate that the spatial spin splitting of a coherent beam of electrons can be achieved and controlle

40 ver, comprehensive discovery of functionally coherent biclusters from large datasets remains a challe

41 communities grouping genes often involved in coherent biological processes.

42 the longitudinal anatomical data to identify coherent but heretofore unknown subgroups.

43 The long-term benefits were coherent by all 3 statistical methods and persisted amon

44 ranslate inherently diverse social cues into coherent categorizations of other people.

45 t known how cAMP-dependent plasticity drives coherent changes in neuronal physiology that encode the

46 y, and photoemission monitors the subsequent coherent changes in the electronic band structure.

47 In cases of coherent charge-transfer mechanism in biaryl compounds t

48 The implication of this finding in non-coherent charge-transfer rates is being investigated.

49 ltaneously partition the input gene set into coherent co-expressed modules (CEMs), while assigning th

50 at theta oscillations in both structures are coherent, co-modulated, and mutually interactive during

51 contact inhibition of locomotion can display coherent collective behavior when in groups, even in the

52 ient, short-range chemical gradients lead to coherent collective movement at a macroscopic scale?

53 To test whether coherent communication between LGN and V1 was essential

54 Coherent communication systems offer significantly impro

55 This revealed the presence of coherent conduits of reduced path length across epiderma

56 The most discussed explanation refers to a coherent continuum of fractional excitations analogous t

57 cal considerations that ruled out one-photon coherent control (CC), several experimental studies repo

58 uantum superpositions requires both reliable coherent control and isolation from the environment.

59 For example, coherent control may become possible without the complic

60 magnetic resonance and the demonstration of coherent control of a single silicon-vacancy centre spin

61 Here, the authors demonstrate coherent control of electron valley states, yielding an

62 gh spatial resolution and large bandwidth by coherent control of single electron and nuclear spins.

63 ence times ( approximately 1 mus-40 mus) and coherent control of the defect-induced dynamics.

64 es upon a balance between efficient external coherent control of the system and sufficient isolation

65 derstanding the control of two-level systems.Coherent control of two-level systems is crucial for ach

66 Here, using coherent coupling between light and Rydberg excitations

67 of a three-dimensional CdSe network having a coherent crystalline structure inside hexagonal prisms w

68 s have attributed this limit to formation of coherent 'dark' nuclear spin states but experimental ver

69 op a new theoretical model that explores how coherent delocalized phonon-like modes in DNA provide si

70 all, our results support the conclusion that coherent delocalized phonon-like modes play an important

71 When combining the two coherent depth cues, a significant larger VWM capacity o

72 edical imaging technology that relies on the coherent detection of backscattered light to image tissu

73 chanics is in pursuit of a robust and highly coherent device that couples motion to nonlinear quantum

74 Coherent diffraction imaging (CDI) in the extreme ultrav

75 Bragg coherent diffractive imaging (BCDI) has emerged as a pow

76 Here we use Bragg coherent diffractive imaging (BCDI) to resolve the 4D ev

77 itions in reactive environments: grain Bragg coherent diffractive imaging (gBCDI).

78 Here, we utilize Bragg coherent diffractive imaging of a single BaTiO3 nanopart

79 alize the particles in 3D, and ptychographic coherent diffractive imaging of the fine features in the

80 Here, we use Bragg coherent diffractive imaging to image defects during the

81 ies are crucial for experiments ranging from coherent diffractive imaging, non-linear x-ray optics an

82 Using Bragg coherent diffractive imaging, we image dislocations nucl

83 , isolated samples required for conventional coherent diffractive imaging.

84 ruthenium-based catalysts to provide a more coherent discussion and because of the availability of d

85 In this work, efficient and coherent dispersive wave generation of visible to ultrav

86 is enslaved to the wavelength of an external coherent drive.

87 r reduce the density of magnons, and achieve coherent dynamic states of magnetization reminiscent of

88 These results suggest that coherent effects play a role, despite the fact that exci

89 The coherent elastic scattering of neutrinos off nuclei has

90 It was found that the coherent elastic strain field in the matrix, created by

91 tron temperatures in nanostructures to study coherent electronic phenomena and improve the operation

92 Continuous plasma coherent emission is maintained by repetitive Langmuir c

93 ingle emitters in quantum photonics requires coherent emission, strong light-matter coupling, low los

94 orming extremely localized sources of bright coherent emission.

95 feedback loop that maintains the continuous coherent emission.

96 In addition to providing implications for coherent energy conversion, these are potentially releva

97 in future all-optical computing devices.1-5 Coherent energy oscillations between two spatially separ

98 ly by A-tracts of B-form DNA while retaining coherent energy transfer.

99 Using Ramsey interferometry, we studied coherent evolution of the resonantly interacting Bose ga

100 atomic gas, we demonstrate a controlled and coherent exchange collision between two photons that is

101 that determine individual risk, to derive a coherent explanation for population patterns in cardiova

102 -mediated bud regulation, our data suggest a coherent feed-forward loop in which strigolactone treatm

103 ive feedback enables gradient detection, and coherent feedforward regulation underlies cellular memor

104 ng positive feedback, mutual repression, and coherent feedforward, as well as signaling interaction c

105 ed optical beam across the proximal end of a coherent fibre bundle; high-frequency ultrasound (156% f

106 vation of CT V1 neurons dramatically induced coherent firing in LGN neurons and, to a lesser extent,

107 f layer 6 corticothalamic (CT) V1 neurons in coherent firing within the LGN-V1 network.

108 cally detected repairs needed to establish a coherent flow of the information that explains the logic

109 l transition from bulk-turbulent to confined-coherent flows occurs concomitantly with a transition in

110 by the constructive interference between two coherent focusing SPs.

111 Specifically, we measure a fully coherent four-dimensional spectrum which simultaneously

112 The model provides a coherent framework for the study of spectral, temporal a

113 The model provides a coherent framework for the study of spectral, temporal a

114 ta about patterning and morphogenesis into a coherent framework remains a challenge in developmental

115 of granule cell firing and (3) transient and coherent gating oscillations.

116 2) ) at room temperature and emits spatially coherent Gaussian laser beams.

117 ed that there should be clear geographically coherent genetic structuring within one of the world's h

118 a decrease in hail size using continuous and coherent hail size records from 2,254 manned stations in

119 hat successful memory consolidation requires coherent hippocampal-neocortical communication mediated

120 solution for a low-speckle, full-field, and coherent imaging in optically scattering media in the fi

121 e room-temperature sub-wavelength resolution coherent imaging with a 3.4 THz quantum cascade laser, p

122 therapeutic interventions in AD and promises coherent implementation of treatment in a personalized m

123 tiffness state of a martensitic alloy by its coherent integration with a compatible, stable second co

124 from a series of two-dimensional X-ray Bragg coherent intensity diffraction patterns measured at a si

125 ce from a metallic substrate, the strong and coherent interaction between the dipoles inside the 2DMA

126 In this work, we demonstrate the coherent interaction of a (31)P donor electron with the

127 Coherent interaction with off-resonance light can be use

128 individually trapped cold atoms with strong, coherent interactions enabled by excitation to Rydberg s

129 n the hcp-Mg matrix will require well-bonded coherent interface along precipitate broad-faces, while

130 t dislocations and dangling bonds, forming a coherent interface with the embedding 2D matrix.

131 nanocomposite film can be attributed to the coherent-interface strengthening mechanism, which is exp

132 uding armchair-type surface terminations and coherent interfaces between assembled crystals.

133 ken with incoherent fluorescent emission and coherent laser light as illumination source.

134 bosons, polaritons can form condensates with coherent laser-like emission.

135 raction tracks the light-induced femtosecond coherent lattice motion at a single phonon frequency, an

136 Coherent lattice vibrations (acoustic phonons) govern th

137 c material, but that it survives as a mostly coherent layer at depth, with limited surface exposures.

138 ng-free second harmonic generation over many coherent lengths in thin film lithium niobate waveguides

139 opposites can result in novel techniques for coherent light control.

140 ts suggest that this concentration-dependent coherent light diffraction is due to the ultrafast and l

141 Such devices range from novel coherent light emitters to reconfigurable potential land

142 on methods to control two counterpropagating coherent light sheets that generate excitation patterns

143 in volume using the full power of the Linac Coherent Light Source (LCLS) and a dose up to 1.3 GGy pe

144 The Linac Coherent Light Source (LCLS) is an X-ray source of unmat

145 current 120-Hz repetition rate of the Linear Coherent Light Source (LCLS).

146 Propagation of coherent light through a disordered network is accompani

147 are a new class of amplifiers that generate coherent light well below the diffraction barrier bringi

148 onreciprocal induced transparency based on a coherent light-sound interaction, with the coupling orig

149 No coherent link currently exists between this intensity sp

150 ombining two time-domain experiments into a "coherent lock-in" measurement in the terahertz regime.

151 idity of the resonator for the generation of coherent loops.

152 avity solitons in microresonators results in coherent low-noise optical frequency combs that are crit

153 over 400 CMEs, we show that CMEs cease to be coherent magnetohydrodynamic structures within 0.3 AU of

154 The coherent manipulation also provides a method of measurin

155 Here, we report the coherent manipulation of a qubit, which is based on the

156 ssential, such as time-of-flight tomography, coherent manipulation of quantum systems, time-resolved

157 Coherent manipulation of shallow nitrogen-vacancy (NV) c

158 elecommunications components, we introduce a coherent manipulation platform with which to control fre

159 Controllable, coherent many-body systems can provide insights into the

160 een suggested to explain the LIA cooling, no coherent mechanism has yet been proposed for this season

161 A coherent mechanistic picture of this transformation is r

162 sual world, contributing to the formation of coherent memory representations that support cognition a

163 the Y3Fe5O12 magnetization and generation of coherent microwave radiation.

164 ective, tapered coupling scheme, we generate coherent mode-locked frequency combs.

165 r, BeME-WithFun helped identify functionally coherent modules that might be relevant for cancer progr

166 slocation arrays produce 2D superlattices of coherent MoS2 1D channels in WSe2.

167 bled to remove recognizable human figures or coherent motion caused significant, though smaller shift

168 Coherent movement of multiple objects (an artificial rec

169 Instead, we find coherent multidecadal variations involving the inferred

170 e examples of a recently developed family of coherent multidimensional spectroscopies (CMDS) that are

171 hiocoma wendtii This intriguing process uses coherent nanoprecipitates to induce compressive stresses

172 patially organized dye aggregates for use in coherent nanoscale energy transport, artificial light-ha

173 inoxylan hinders the proteins from forming a coherent network.

174 At the same time, the analysis of coherent neutron scattering in the thermal and cold ener

175 As a consequence, OCT is susceptible to coherent noise (speckle noise), which imposes significan

176 t analyses, we propose a systematization and coherent nomenclature of GH1-containing proteins of Arab

177 estroyed this mapping by either presenting a coherent object but then breaking it into independent pa

178 onstrate three prominent QKD protocols-BB84, Coherent One Way and Differential Phase Shift-with perfo

179 ises photon-state statistics, distinguishing coherent, one- and two-photon superposed states with the

180 rdered, state and a crumpled, epigenetically coherent, one.

181 al a strong coupling between large-amplitude coherent optic vibrations of Tl-rattlers along the c-axi

182 ion (OPC) through photonic nanostructures in coherent optics involves the utilization of a nonlinear

183 Here we demonstrate coherent optomechanical state swapping between two spati

184 ructural trapping dynamics, which launches a coherent oscillating wave packet (265 fs period), clearl

185 Coherent oscillations also occur within individual brain

186 hypothesis posits that the precise phase of coherent oscillations in network nodes is a determinant

187 e branches of the tree and leading to global coherent oscillations in the network.

188 at temperatures (TDW) close to 200 K via the coherent oscillations of its collective modes, which is

189 The dependence of coherent oscillations on pulse excitation level and dura

190 ced enzymatic specificity and maintenance of coherent oscillations.

191 and a resonant Raman transition to create a coherent output beam, but they differ in how they access

192 , but how it integrates these signals into a coherent output, i.e. phosphorylation of eEF-2, is uncle

193 Spatially coherent patches in human temporal cortex responded sele

194 system to integrate complex inputs into one coherent percept.

195 ecting the sensory features needed to form a coherent percept.

196 oupling strength, we observe the polaritonic coherent perfect absorption and demonstrate the phase tr

197 The forcing activity demarcates coherent phase space regions where the dynamics are appr

198 olution spectra in a single ion (CaH(+)) and coherent phenomena such as Rabi flopping and Ramsey frin

199 essing of the electronic states, creation of coherent phonon pairs, and diffusion of charge carriers

200 tion characterized by a hardening of the A1g coherent phonon, in stark contrast with the softening ob

201 ansition from incoherent-phonon-dominated to coherent-phonon-dominated heat conduction in SLs when th

202 perlattices (SL) can lead to localization of coherent phonons and thereby reduces the lattice thermal

203 umes the vibrational coupling is mediated by coherent phonons with low energies.

204 direct map of the interacting superposed and coherent photonic states.

205 The dearth of information and the lack of a coherent phylogeny-based nomenclature of these proteins

206 ferent scales, data converge to a remarkably coherent picture in which one can estimate the relative

207 on several topics in the hope of providing a coherent picture of and physical insight into binding ki

208 n studied extensively in recent years, and a coherent picture of their activation mechanisms has begu

209 se excitations cannot be considered as fully coherent plasmons and they are damped even in the optica

210 In addition, semi-coherent platelet eta' precipitates were observed but on

211 n, resulting in ultrafast emission pulses of coherent polariton field.

212 We found that these highly dispersed, fully coherent precipitates (that is, the crystal lattice of t

213 ess required for dislocations to cut through coherent precipitates and thus produce plastic deformati

214 ed here indicated that interfacial-energy of coherent precipitates is sensitive to the population of

215 ir outstanding strength originates from semi-coherent precipitates, which unavoidably exhibit a heter

216 ttering is an incoherent technique, SRS is a coherent process, and this fact provides several advanta

217 In many layered metals, coherent propagation of electronic excitations is often

218 dopsis orthologues, over 90% of which form a coherent protein-protein interaction (PPI) network conta

219 Coherent QD arrays have a spatial distribution which is

220 This makes the exploration of coherent quantum enhanced optimization protocols accessi

221 Here we introduce a technique for coherent quantum interpolation that can overcome these p

222 um computers will require a large network of coherent qubits, connected in a noise-resilient way.

223 computers require a large network of highly coherent qubits, interconnected in a design robust again

224 , TRSF and DOVE methods are complementary to coherent Raman methods such as coherent anti-Stokes Rama

225 ng combined with hyperspectral, quantitative coherent Raman microscopy to localize a model CPP-penetr

226 ative excitonic recombination and subsequent coherent random lasing.

227 Here, we demonstrate a promising simplified coherent receiver exhibiting a robust performance agains

228 this study, we examine the effect of 633 nm coherent, red laser light on sperm motility using a nove

229 itatory RF centers, but these always cover a coherent region of visual space, implying visuotopic ord

230 amically, these systems can act as catalytic coherent reservoirs by performing perfect non-Landauer e

231 The sites demonstrated coherent responses of GEP and NEP to anomalies in annual

232 in virgin and recently mated males revealed coherent responses, with biological processes that are u

233 We show that the donor nuclear spin drives coherent rotations between the electronic qubit states t

234 Based on continuous and coherent severe weather reports from over 500 manned sta

235 However, because the coherent size is just a few nanometers, it presents a ma

236 rst populates delocalized CT excitons with a coherent size of 4 nm.

237 volution of the exciton's binding energy and coherent size with femtosecond time resolution.

238 Recombination may maintain coherent species of frequently recombining bacteria, but

239 g high-resolution multidimensional nonlinear coherent spectra with frequency combs.

240 lement polarization-resolved two-dimensional coherent spectroscopy (2DCS) to unravel the complex opti

241 plasmonic metamaterials, we demonstrate that coherent spectroscopy can conveniently isolate and detec

242 Current implementations of multi-dimensional coherent spectroscopy have long acquisition times and/or

243 Our results establish that the coherent spectroscopy is a powerful new tool.

244 Optical multi-dimensional coherent spectroscopy is a powerful technique for studyi

245 lution and background free multi-dimensional coherent spectroscopy of semiconductor materials.

246 Coherent spike activity occurs between widely separated

247 on-band electrons define interacting quantum coherent spin and charge degrees of freedom that allow a

248 s to simultaneously manipulate and probe the coherent spin dynamics of both spin species and hence th

249 We are able to derive field profiles from coherent spin Rabi oscillations close to the gigahertz r

250 obe, beyond what is achievable with an ideal coherent state (a perfect laser) detected with 100% effi

251 crowave cavity optomechanical system using a coherent state of light to within 15 per cent of this li

252 xt]| = 10 subspaces using classical and weak coherent states and find excellent detection fidelities

253 le building blocks of quantum optics, namely coherent states, single photons, beam splitters and proj

254 ility of ecological scaling exponents into a coherent statistical framework where patterns in ecology

255 vide strong evidence that, in the absence of coherent strain between Pt and Pd, finite size effects i

256 ges of yeast endoplasmic reticulum show that coherent structured illumination (csi) LSFM performs wit

257 However, coherent superposition of longitudinal and transverse mo

258 t states, where the photons are created in a coherent superposition of multiple high-purity frequency

259 Here, Weaver et al. demonstrate coherent swapping of optomechanical states between two s

260 Under coherent symmetric incidence, it can support nearly 100%

261 antilocalization effects, indicating a phase-coherent system with strong spin-orbit coupling.

262 The proposed solution indicates that digital coherent technology can be feasible and transform the ac

263 ls of unconsciousness where movement ceases, coherent thalamocortical delta oscillations (1-5 Hz) dev

264 of this disagreement: nature versus nurture, coherent theories versus theory fragments, and symbolic

265 At the network level, we found that coherent theta oscillations synchronize VTA and mPFC in

266 lar, when oscillations at distinct sites are coherent, they provide a means of gating the flow of neu

267 (AFM) dielectric (NiO) can be a source of a coherent THz signal.

268 pact and tunable room temperature sources of coherent THz-frequency signals would open a way for nume

269 nd the dephasing strength, a transition from coherent to hopping electron transport occurs, enabling

270 TION: Intraoperative spectral domain optical coherent tomography (iSD-OCT) assisted PPV using Rescan

271 tion with specific molecular probes, optical coherent tomography (OCT) is a promising imaging modalit

272 topologically well defined in the form of a coherent toroidal structure.

273 photon handling elements and as channels for coherent transfer of energy and information in future al

274 rting at a twin boundary and propagating via coherent transformation dislocation; the nanorod is redu

275 veal that THz pulses are mostly generated by coherent transition radiation of laser produced hot elec

276 through their the C-tails may facilitate the coherent treadmilling dynamics of membrane-associated Ft

277 wo-step transport in this system to a direct coherent tunneling.

278 f nt-Cu is demonstrated with high density of coherent twin boundaries using a new room temperature pr

279 om of donor impurities in silicon form ultra-coherent two-level systems that are potentially useful f

280 echanism for the loss-less coupling and thus coherent ultra-fast energy transfer between the remote p

281 ilcoxon signed-rank test) suggestive of less coherent underlying fibre orientation.

282 partial and noisy information to construct a coherent understanding of the world.

283 Our findings suggest that natural coherent variability in semi-arid ecosystem productivity

284 proxy archives often suggest hemispherically coherent variations, some proposing meridional shifts in

285 ved together a patchwork of new ideas into a coherent view of case-control studies.

286 To build a coherent view of the external world, an organism needs t

287 The simplest coherent wavefunction control uses a two-eigenstate admi

288 be used to browse rich, hybrid content in a coherent way, and offers interactive visual analytics ap

289 However, observers perceived a coherent whole shape instead of a jumbled pattern.

290 ls and approximately 20 Hz SM1 envelope were coherent with both force and its absolute change rate.

291 oung people showed brain activation patterns coherent with movement planning.

292 onsistent with the historical production and coherent with previously reported patterns in seawater.

293 rylated upon chemokine signaling with timing coherent with rapid LFA-1 affinity activation.

294 identification of all samples by PCR-LFD was coherent with the results found with DNA sequencing.

295 Using Bragg Coherent X-ray Diffraction Imaging (BCDI), we are able t

296 Coherent x-ray diffraction investigations on Ag five-fol

297 isualization of a mammalian mitochondrion by coherent x-ray diffractive imaging (CXDI) using synchrot

298 routinely produced at LCLS take place at the Coherent X-ray Imaging (CXI) instrument, which can produ

299 Coherent X-ray microscopy by phase retrieval of Bragg di

300 of BISER by direct observation of nano-scale coherent x-ray sources in a laser plasma.