ライフサイエンスコーパス: phenomena

1 nal changes can generate diverse and complex phenomena.

2 ctronic structure, thereby enabling emergent phenomena.

3 and exciting dimensionality-driven magnetic phenomena.

4 , sexual selection and many other biological phenomena.

5 patients with COVID-19 to develop thrombotic phenomena.

6 bserved adhesion weakening and strengthening phenomena.

7 otect from EM fields and supress undesirable phenomena.

8 T offer new perspectives on basic biological phenomena.

9 of behavior that more closely match clinical phenomena.

10 oper order parameters for describing complex phenomena.

11 ith task performance and other relevant task phenomena.

12 of RNA affects a wide variety of biological phenomena.

13 Coulomb interactions to give rise to complex phenomena.

14 usual surface states and anomalous transport phenomena.

15 an ideal system to investigate rich emergent phenomena.

16 ets in response to OSAS and its accompanying phenomena.

17 energy transfer and corresponding quenching phenomena.

18 diagnosis and treatment of dynamic clinical phenomena.

19 n ideal stage to realize strongly-correlated phenomena.

20 e (NC), involving four deeply interconnected phenomena.

21 yer materials exhibit many exotic electronic phenomena.

22 undesirable localization and backscattering phenomena.

23 nes, indicating transcriptional condensation phenomena.

24 s been on documenting the existence of these phenomena.

25 different biological questions, problems and phenomena.

26 a range of biological, chemical and physical phenomena.

27 x and are often limited to particular choice phenomena.

28 erturbation on potentially dangerous natural phenomena.

29 ith different compositions also show similar phenomena.

30 l ecosystems are at significant risk to such phenomena.

31 to study fundamental cross-scale biological phenomena.

32 oth technical artifacts and novel biological phenomena.

33 We also reveal molecular mechanisms of these phenomena.

34 there is a causal relationship between these phenomena.

35 , might promote new investigation into these phenomena.

36 mportant role in a wide range of fundamental phenomena.

37 unintentionally reproducing many ecological phenomena.

38 d quenching and aggregation-induced emission phenomena.

39 l, electrical, magnetic, optical, or thermal phenomena.

40 Circadian rhythms influence many of these phenomena.

41 o model the relationships among the emerging phenomena.

42 the other 9 methods fail to capture the key phenomena.

43 position, has been used for studying various phenomena.

44 Tomasello explores four interrelated phenomena: (1) joint intentional collaboration; (2) join

45 onducting(3,4), excitonic(5) and topological phenomena(6-8) in heterostructures.

46 ped stripes are sculpted by the same kinetic phenomena: a coupled increase of burst frequency and amp

47 r loss may be responsible for three observed phenomena: a general age-dependent loss of intracellular

48 sampling is needed to fully understand these phenomena across the order.

49 Whether anticoagulation can reduce these phenomena after transcatheter aortic-valve replacement (

50 ic cultural behaviors and pragmatic cultural phenomena and (ii) a challenging but decisive test of th

51 rlying principles governing light-harvesting phenomena and can accelerate the fabrication of light-ha

52 ent platforms for exploring emergent quantum phenomena and designing new functionalities.

53 e an exciting playground for exotic physical phenomena and emergent many-body quantum states.

54 , and the characterization of their emergent phenomena and exotic phases.

55 e engineering, for realization of correlated phenomena and for gate-tunable built-in planar electric

56 trix (ECM) underlies important physiological phenomena and is based on a variety of mechanical strate

57 ize and interpret the emergent nonreciprocal phenomena and is later validated against benchmark numer

58 better understanding of how the many choice phenomena and key theoretical principles from different

59 e for a relationship between these two basic phenomena and more complex mathematical skills is mixed.

60 to be promising platforms for study of novel phenomena and new applications.

61 s open new avenues for exploring fundamental phenomena and novel optoelectronic applications using la

62 ith optical phase resolution illuminates old phenomena and opens new directions for growth of plasmon

63 nd properties of many substances, as well as phenomena and processes.

64 closed-form model is provided to explain the phenomena and serve as a design tool for integrating thi

65 imilarities exist between granular transport phenomena and the behavior, and hence predictability, of

66 However, a deep understanding of these phenomena and their redox chemistry remains incomplete.

67 used to understand the underlying biological phenomena, and a smaller test signature that can be used

68 y records, consider the impact of CP and COA phenomena, and assess the merits of archaeological proxi

69 lay a critical role in many condensed matter phenomena, and it is tempting to find a way to control t

70 Intermediate control phenomena are also observed, and even the same organism

71 uced anhedonia and passive coping that these phenomena are associated with increased synaptic strengt

72 These phenomena are beyond the realm of ray optics.

73 topological transition), various intriguing phenomena are found, such as an enhancement of the photo

74 Emerging phenomena are highly transient and diverse, and are depe

75 The network dynamics underlying these phenomena are not fully understood.

76 Globally, these phenomena are observed with seasonal influenza and with

77 Here we propose that these phenomena are the result of excessive uncertainty regard

78 mergence of superradiance, i.e., cooperative phenomena arising from the collective nature of light-ma

79 de extraordinary opportunities for exploring phenomena arising in atomically thin crystals.

80 se methods seem to index the same underlying phenomena as commonly-used self-report scales.

81 enabling us to bound the range of dynamical phenomena associated with hosts, based on their traits.

82 s of cell-cell recognition, including unique phenomena associated with neuronal interactions.

83 d probe macroscale and ecologically relevant phenomena at microscale resolution.

84 to investigate a variety of electrochemical phenomena at solid-liquid interfaces.

85 of ECR, including the chemical and physical phenomena at the electrodes as well as the electrochemic

86 more reliable means to investigate diffusion phenomena at the nanoscale.

87 magnetometers to probe correlated electronic phenomena at the nanoscale.

88 construct and simulate cellular length scale phenomena based on emerging structural data will enable

89 anisotropic materials a wide array of novel phenomena become possible.

90 We present two phenomena - belief polarization and the size-weight illu

91 use of racial categories to explain biologic phenomena but instead rely on a more comprehensive frame

92 nhancement and impairment effects are robust phenomena but predominate in different parts of the deci

93 This protein may further contribute to these phenomena by antagonising the induction of dsRNA-mediate

94 The possibility of triggering correlated phenomena by placing a singularity of the density of sta

95 We developed a unifying model for these phenomena by training a recurrent excitatory-inhibitory

96 The above phenomena can account for the large discrepancies among

97 The coupled phenomena can be described by using the unsteady convect

98 We argue that these phenomena can be explained by uncertainty about where ev

99 To specifically understand the deterioration phenomena caused by microorganisms in tombs and how thes

100 nd, in particular, for exploring interaction phenomena characteristic of flat bands.

101 aterials at scale, since these two transport phenomena (charge and mass transport) would need to oper

102 cular evolution and adaptation are important phenomena commonly observed in viruses.

103 grated with the detailed cell biology of PCP phenomena, completely changed how the field studies this

104 Both phenomena could be attributed to the release of bounded

105 Similar phenomena could be recorded with the shorter peptide Abe

106 Furthermore, these phenomena could lead to changes in abundance in certain

107 All three phenomena-coverage gaps, overlapping designations, and d

108 dependently validate three interesting moral phenomena: criminal dehumanization, age of responsibilit

109 xperiments in simulated settings and less on phenomena crucial to the long-term dynamics of cultural

110 same organism can exhibit different control phenomena depending on growth conditions [2, 7, 8].

111 cattering calculations reveal that transient phenomena driven by non-linear x-ray interaction are dec

112 iven rise to a number of emergent electronic phenomena due to the interplay between atomic structure

113 has been shown to enhance nonlinear optical phenomena due to the presence of a direct excitonic reso

114 r alpha-tocopherol protection from oxidative phenomena, EVOOs with the highest phenolic fractions sho

115 lculations reveal two extreme atomic-physics phenomena-firstly, an interspecies radiative transition;

116 play crucial roles in understanding natural phenomena from human disease to climate change.

117 veloped a new algorithm to identify emerging phenomena from large-scale temporal plant phenotyping ex

118 any common vascular dynamics may be emergent phenomena generated by NO degradation by the blood or pa

119 Furthermore, different remapping phenomena have been classified on the basis of how much

120 Both phenomena have been interpreted as reflecting an impairm

121 These phenomena have been investigated and exploited for targe

122 Sizers, adders, and intermediate phenomena have been observed in vitro [9-12], but it is

123 tative theories of what constitutes emergent phenomena have been proposed.

124 he pathophysiologic mechanisms linking these phenomena have been studied, certain aspects are not wel

125 that can be used to describe many ecological phenomena, hidden Markov models (HMMs) can facilitate in

126 2 processes have been considered independent phenomena; however, recent studies support the theory th

127 te-of-art algorithms shows that the emerging phenomena identified by TEP-Finder are more functionally

128 orphologies that is consistent with observed phenomena in AGB stars and PNe.

129 g and engineering rich moire-lattice induced phenomena in angle-twisted semiconductor van der Waals h

130 tion of functionalities arising from dynamic phenomena in bulk and three-dimensional patterned nanoma

131 dynamic bonding would explain important MOF phenomena in catalysis, postsynthetic exchange, negative

132 Chemical reactions are the most important phenomena in chemistry.

133 A defining feature of emergent phenomena in complex oxides is the competition and coope

134 critical capabilities of probing ultra-fast phenomena in condensed matter systems at X-ray free elec

135 Emerging phenomena in developmental biology and tissue engineerin

136 Then, emerging phenomena in different temporal scales are identified fr

137 rfluid phases provides insights into related phenomena in electron fluids, topological materials, and

138 ering the moire potential and enabling novel phenomena in electronic moire systems, a systematic expe

139 Emergent quantum phenomena in electronically coupled two-dimensional hete

140 cesses, paving the way towards novel quantum phenomena in extreme nonlinear optics.

141 between philosophical accounts of normative phenomena in general - which are pitched as not totally

142 In-plane and out-of-plane thermal conduction phenomena in graphene/2D-SiC vdWHs were studied using re

143 Localisation phenomena in highly disordered metals close to the extre

144 ools allowing for the investigation of these phenomena in living organisms.

145 Our findings may shed light on phenomena in many living systems where information drive

146 s, is one of the most intriguing fundamental phenomena in nature.

147 mportant for understanding a wide variety of phenomena in physics.

148 ring and understanding the emergence of such phenomena in quantum materials-especially those in which

149 s is necessary for predicting ion adsorption phenomena in soils using surface complexation modeling.

150 e, our method observes potential pre-seizure phenomena in some cases.

151 ing in neuroscience aims to explain observed phenomena in terms of underlying causes.

152 e and, ideally, determine the place of these phenomena in the field of nursing.

153 e than organic materials to biodeterioration phenomena in the indoor environments, offers niches for

154 erstanding of the relationship between these phenomena in the past.

155 In the present review, we discuss the main phenomena in the physics of such systems, paying central

156 r limit to the magnitude of many topological phenomena in these materials.

157 lassemia, which may contribute to thrombotic phenomena in these patients.

158 l provides new insights into charge-ordering phenomena in transition-metal oxides in general.

159 to achieve proximity screening of many-body phenomena in two-dimensional systems.

160 ay for exploring flat-band-generated quantum phenomena in WSMs.

161 span diverse phenotypes, reflecting genetic phenomena including pleiotropy, incomplete penetrance an

162 isic signatures associated with a variety of phenomena including tidal effects during the inspiral.

163 risks associated with such observed flutter phenomena, including blood damage and accelerated leafle

164 tein family members underlie many biological phenomena, including cell-cell recognition.

165 led rods exhibit a variety of nonequilibrium phenomena, including clustering, collective motion, and

166 tool for study of the electronic and optical phenomena induced by the periodic variation of atomic st

167 ple complexes (SWRs) are hippocampal network phenomena involved in memory consolidation.

168 hile, a directed acyclic network of emerging phenomena is composed to model the relationships among t

169 Understanding these phenomena is vital, particularly in advanced economies f

170 tures that probably reflect non-pathological phenomena, it is possible to differentiate between epile

171 protection against new influenza A subtypes (phenomena known as original antigenic sin and immune imp

172 in liquid candidate materials and associated phenomena lie at the intersection of solid-state chemist

173 ical processes such as habitat selection and phenomena like ecological traps, which may render specie

174 e network reproduces experimentally observed phenomena like Hick's law without needing an additional

175 In financial markets, phenomena like imitation, herding and positive feedbacks

176 l processes such as endocytosis and physical phenomena like phase separation in lipid bilayers.

177 he emergence of a vast number of fascinating phenomena, like ferroelectricity, second harmonic genera

178 We provide evidence on how these phenomena may have contributed to the growth in racial d

179 Identifying emerging phenomena may help biologists to examine potential relat

180 e causal interactions observed in real-world phenomena might be persistently hidden.

181 thin-spine morphology on striatal MSNs; both phenomena mimicking changes seen in dyskinetic rats.

182 ecular potentials describing physicochemical phenomena near the glass transition.

183 understood, making investigation into taxis phenomena nontrivial.

184 nventional base materials can exhibit exotic phenomena not commonly found in nature, achieved by comb

185 agnons is one of the few macroscopic quantum phenomena observable at room temperature.

186 of magnons is one of few macroscopic quantum phenomena observed at room temperature.

187 o decrease this cost can account for various phenomena observed during goal-directed movements.

188 while also uncovering a common mechanism for phenomena observed in experiments on both atrial and ven

189 The flow phenomena occurring at steady and pulsating flow injecti

190 The phenomena of antisymmetric magnetoresistance and the pla

191 ent we reproduce the theoretically predicted phenomena of asymptotic, non-zero electrophoretic mobili

192 the stage for understanding related chemical phenomena of bioinspired materials in diverse technologi

193 e-cell technologies establishing the diverse phenomena of cell size control in animal cells.

194 view of epigenetic aging, in particular, the phenomena of epigenetic drift and epigenetic clock, with

195 ma generation conditions on the interrelated phenomena of expansion dynamics, plasma chemistry, and p

196 he complexity of a polyploid genome with its phenomena of homoeologous expression bias, detailed anal

197 ve developed complex simulations to describe phenomena of interest.

198 acular pigments is perceived as the entoptic phenomena of Maxwell's spot (MS) or Haidinger's brushes

199 Various transient and random phenomena of multimode DSs are revealed, highlighting th

200 The common phenomena of slowing fitness increases during adaptation

201 sorption, gelatinization and retrogradation phenomena of starches in the presence of water, in a lev

202 d, which is owing to the reduction-oxidation phenomena of the NiO(x) membranes.

203 opened by the ultrafast imaging of plasmonic phenomena on the nanofemto scale.

204 coherent imaging of the dynamical plasmonic phenomena on the nanofemto scale.

205 pris and Greta oto, that exhibit iridescence phenomena on their wings, and in this work, we relate th

206 r own fluctuations, ironically like the very phenomena on which we worked.

207 ctures that may give insight into biological phenomena or abstract mechanics of complex systems.

208 applied to the multiple levels of biological phenomena or the intact human being, our ability to char

209 hether these effects are distinct or related phenomena, or whether they are early sensory effects or

210 These phenomena originate from the difference between the dela

211 studying sublayer and temperature-dependent phenomena over individual sites on electrodes.

212 These two linked phenomena play crucial roles in winter acclimation and p

213 ic and ionic roles regarding charge-transfer phenomena poses a central challenge.

214 We detect several phenomena predicted to arise from the existence of a PDW

215 dopamine has explained a wealth of empirical phenomena, providing a unifying framework for understand

216 uncovered three novel complex rearrangement phenomena: pyrgo, rigma, and tyfonas.

217 many-body quantum systems are fundamental to phenomena ranging from condensed-matter physics to cosmo

218 tools in the study of physical and chemical phenomena related to structural properties of polyatomic

219 owever, the mechanisms responsible for these phenomena remain incompletely understood.

220 oid malignancy, but mechanisms linking these phenomena remain poorly defined.

221 ticity, and the mechanisms linking these two phenomena, remain poorly understood.

222 Nevertheless, the relationship between these phenomena remains poorly defined.

223 Remarkably, we find that both of these phenomena require tra-1.

224 Understanding these phenomena requires comparative studies integrating genet

225 , is created and used to analyze atmospheric phenomena responsible for floods.

226 ts in these pathways could be interconnected phenomena responsible or consequence for the redox imbal

227 me sleep disturbances, and REM-sleep-related phenomena (sleep paralysis, hallucinations) that intrude

228 Hall effects combined with their reciprocal phenomena, spin pumping and inverse spin Hall effects (I

229 From an interfacial phenomena standpoint, gallic acid (GA), methyl gallate (

230 Most of the fascinating phenomena studied in cell biology emerge from interactio

231 en demonstrated for relatively low frequency phenomena such as acoustics, water waves and microwaves.

232 competing non-radiative pathways, including phenomena such as aggregate caused quenching (ACQ).

233 lture-specific influences to produce musical phenomena such as consonance.

234 reinterpret the explanatory vices that drive phenomena such as conspiracy theories, delusions, and ex

235 sounds, and several other puzzling tinnitus phenomena such as discrepancy in loudness between tinnit

236 es, shedding new light on complex ecological phenomena such as pathogen transmission in wild populati

237 Some unique structures and phenomena such as polymorphic aggregates, aggregation-in

238 portant material platform to explore quantum phenomena such as quantized anomalous Hall effect and Ma

239 hich led to the observation of many exciting phenomena such as quantized vortices, second sound, and

240 arged ions and is associated with electronic phenomena such as superconductivity, colossal magnetores

241 ture investigates the dynamics of short term phenomena such as the depolarization and repolarization

242 ic [Formula: see text] emissions and natural phenomena such as the El Nino.

243 potential importance of CNA heterogeneity in phenomena such as therapeutic resistance and disease rel

244 ional proteins regulating diverse biological phenomena, such as aging, immunity, proteostasis and pro

245 a platform for studying ultrastrong-coupling phenomena, such as chemical manipulation via vibrational

246 also give rise to many fascinating physical phenomena, such as chiral magnon and skyrmion glass stat

247 nalysis framework can be applicable to other phenomena, such as electrodeposition, nucleation, and me

248 ability to host exotic electronic transport phenomena, such as in-plane transport anisotropy, Weyl n

249 to sites of energy demand; however, emergent phenomena, such as mitochondrial transmembrane potential

250 included in full detail, several biological phenomena, such as the increasing peptide elongation rat

251 ries are broken, they can give rise to novel phenomena, such as the quantum spin Hall effect in one-d

252 r decades owing to a plethora of distinctive phenomena-such as rectification(1), the photovoltaic eff

253 Observations of these phenomena, termed enhanced enzyme diffusion (EED) and en

254 Hermitian systems exhibit markedly different phenomena than their conventional Hermitian counterparts

255 recordings, are greatly hindered by various phenomena that are well established in animal studies: c

256 ves in various ways, giving rise to emergent phenomena that can be surprisingly rich and often cannot

257 Brain networks are spatiotemporal phenomena that dynamically vary over time.

258 to reveal the origins of the electrochemical phenomena that enable new means of energy storage.

259 hrough-space" charge transfers are molecular phenomena that have been studied since the 1960s.

260 tum simulators can be used to study physical phenomena that have not yet been observed in any experim

261 me inactivation (XCI) are classic epigenetic phenomena that involve transcriptional silencing of one

262 ic comprises a diverse category of cognitive phenomena that likely represent both the effects of psyc

263 Life relies on phenomena that range from changes in molecules that occu

264 ive on various bulk, interface and nanoscale phenomena that require urgent attention within the scien

265 Furthermore, we image biological phenomena that would be otherwise challenging or impossi

266 ution (informing on neuronal interconnection phenomena), the clustering coefficient/transitivity (ass

267 Triggered by these ionic phenomena, the electronic transport and magnetic signatu

268 of physics into the modeling of sociological phenomena this must be addressed.

269 eptual, cognitive, emotional, and behavioral phenomena, this conceptual ambiguity and heterogeneity i

270 The method is validated on eight biological phenomena, three synthetic datasets and five real datase

271 ol of their structures and emergent physical phenomena through epitaxial strain, layer thickness, ele

272 ation, and it is one of the most challenging phenomena to explain.

273 his higher-dimensional topological insulator phenomena to lower dimensionality by utilizing a pumping

274 us global) alter the balance between the two phenomena to make one or the other more easily detectabl

275 eir wings, and in this work, we relate these phenomena to the photonic effect.

276 therefore persistently focused on bleaching phenomena to understand where corals bleach, when and wh

277 on the observables in physical and chemical phenomena, together with a wide range of applications.

278 asite model can give rise to these different phenomena under different parametrizations, providing a

279 ottom-up approach to understand the physical phenomena underlying challenges in separations is possib

280 aracterize and validate the immersive social phenomena universally-shaping cultural affordances.

281 e analytical approach to monitor interfacial phenomena using EW-CRDS technique.

282 Topological transport phenomena usually appear at very low temperatures, which

283 -sided loop extrusion cannot reproduce these phenomena, variants can recapitulate in vivo observation

284 investigate the interrelation between these phenomena via magnetoresistivity measurements under high

285 peutic strategies that target or evade these phenomena, we evaluated the function of the transcriptio

286 Here, to shed light on these localisation phenomena, we studied the dc transport and optical condu

287 The phenomena were also observed in the in vivo models.

288 We hypothesised that these phenomena were derived from alterations in the grafted c

289 g number and function, but whether these two phenomena were mechanistically linked was unknown.

290 These physics phenomena were not previously considered in detail for e

291 nts that facilitate horizontal gene transfer phenomena, were identified.

292 ic resonance (SR) is one of those astounding phenomena, where noise, which is considered detrimental

293 curity require accurate forecasts of dynamic phenomena, which are often only partially observed.

294 t soft materials support atypical wave-based phenomena, which is all of the more interesting as they

295 and purely quantum (many-body) localisation phenomena, which need to be challenged further.

296 appending the basic understanding of related phenomena with a new dimension.

297 urban facilities, we investigate the scaling phenomena within cities.

298 s have been primarily treated as macroscopic phenomena within the framework of phenomenological model

299 considered to be largely local-circuit-level phenomena without large-scale synchronization between br

300 he potential for rainfall-triggered volcanic phenomena worldwide.