ライフサイエンスコーパス: exotic

1 es would open the door to a rich spectrum of exotic 2D correlated phases that have not yet been explo

2 n-covalent interactions, bond formation, and exotic 3-center-2-electron species.

3 d as predicted, this effect was moderated by exotic abundance-communities dominated by exotic species

4 Acoustic metamaterials are structures with exotic acoustic properties, with promising applications

5 ry of a unique micrometeorite, containing an exotic Al-Cu-Fe alloy composed of two intermixed phases:

6 However, in several cases more exotic alkylmalonyl-CoA extender units are also known to

7 ve herbivores in wildlands to greater use of exotic and invasive species by cougars in contemporary u

8 The human-mediated spread of exotic and invasive species often leads to unintentional

9 Crop wild relatives harbor exotic and novel genetic resources, which hold great pot

10 marium hexaboride is an anomaly, having many exotic and seemingly mutually incompatible properties.

11 antic US, we examined catch abundance of two exotic and six native Osmia species over the span of fif

12 Nonequilibrium atomic structures can host exotic and technologically relevant properties in otherw

13 nts reduced the abundance of native, but not exotic, animals.

14 Large-seeded exotic annual Erodium cicutarium invaded a site that man

15 strong index modulation and other optically-exotic applications such as metatronics.

16 etic bottleneck following introduction to an exotic area and enhance the invasion success of this ant

17 Rather than being fringe or exotic, as they are sometimes portrayed, we discuss how

18 The exotic band structure can lead to various novel properti

19 n the electronic structure of metals lead to exotic behaviors.

20 However, the profile of exotic bird species has changed radically in the last de

21 ted fatalities in wild birds and quarantined exotic birds in Gauteng, AI outbreaks in poultry in KwaZ

22 ) on the establishment and spatial spread of exotic birds using an unprecedented dataset recorded thr

23 aria, along with other blowflies such as the exotic C. megacephala, greatly outnumber C. hominivorax

24 s involving those chiral fermions can induce exotic carrier responses, and in turn lead to novel opti

25 These exotic chemical reaction mechanisms, involving roaming H

26 ield laser-matter interactions often lead to exotic chemical reactions.

27 offering a versatile strategy to explore the exotic chemistry of novel higher-order carbenes in the g

28 -Moriya interaction (DMI) is responsible for exotic chiral and topological magnetic states such as sp

29 carpa, is the most recent introduction of an exotic citrus pathogen into Florida and has been a chall

30 g WCSRG did not take into account > 120 wild/exotic clones maintained at the USDA-ARS Sugarcane Resea

31 e-dimensional electronic systems can support exotic collective phases because of the enhanced role of

32 meat and eggs, favouring the more productive exotic commercial breeds.

33 astically alter chemical bonding and produce exotic compounds that defy conventional wisdom.

34 tion with retention of the H-H bond, once an exotic concept, has by now appeared in a very wide range

35 It shows an exotic configuration of degeneracies without a well-defi

36 ting records are well aligned, and sedDNA of exotic conifers appears in high quantities with the esta

37 ell-documented 20(th) Century plantations of exotic conifers as an experimental system.

38 Metamaterials have made the exotic control of the flow of electromagnetic waves poss

39 shing this system as a platform for studying exotic critical behavior of the Hertz-Millis type.

40 -magnitude variation of carrier lifetimes in exotic crystalline phases of gold nanoclusters (NCs) in

41 ly considered as grotesque monstrosities and exotic curiosities, but succulents have always been perc

42 ophorum and Taraxacum officinale (native and exotic dandelions) with and without mycorrhizal fungi ac

43 nables us to study the dynamic properties of exotic disordered "hyperuniform" composites that can hav

44 near bulk dispersions, we further unveil the exotic double-helicoid surface arcs that emanate from a

45 [3]catenane system is demonstrated where the exotic dual rotary switching behavior provides a unique

46 They demonstrate that exotic earthworm presence alone increased the abundance

47 However, in plots receiving both exotic earthworms and N addition, such earthworm effects

48 , Shao et al. () explored how N addition and exotic earthworms interacted to impact on the plant-feed

49 Reversed Cherenkov radiation is the exotic electromagnetic radiation that is emitted in the

50 degrees of freedom in 5d oxides can lead to exotic electronic ground states.

51 o-dimensional bilayer materials exhibit many exotic electronic phenomena.

52 es" (such as silicene) fosters a plethora of exotic electronic properties such as a quantum spin Hall

53 te by variation of control parameters offers exotic electronic states such as anomalous and possibly

54 al materials provides a platform to engineer exotic electronic structures for a variety of applicatio

55 st due to their high specific surface areas, exotic electronic structures, and fascinating physical a

56 thin non-layered nanomaterials, study their exotic electronic structures, introduce electronic-struc

57 tense attention due to their ability to host exotic electronic transport phenomena, such as in-plane

58 The Kitaev quantum spin liquid (KQSL) is an exotic emergent state of matter exhibiting Majorana ferm

59 namic forces creates a range of multifarious exotic emulsions.

60 These unconventional ground states support exotic excitations, for example the magnetic charges in

61 animals, suggesting modern humans integrated exotic faunas and other novel resources into their symbo

62 ed in aggregates, as a few examples of their exotic features.

63 and increased carrier density, leading to an exotic ferromagnetic to paramagnetic phase transition.

64 nal beam surrogate of Yb-169 created from an exotic filter material - erbium (Er) and a standard copp

65 m plantagineum and E. vulgare are congeneric exotics first introduced to Australia in the early 1800

66 studied to realize ferromagnetism due to its exotic flat band.

67 in connectivity driven by the invasion of an exotic food resource, illustrating the challenge of iden

68 f particular interest because it may host an exotic form of matter, a quantum spin liquid state, whic

69 Exotic forms of these pure ices have been revealed at ex

70 a well-known semiconductor, although other 'exotic' forms may possess distinct properties.

71 o is a neotropical tree characterized by its exotic fruit and its functional compounds.

72 Cape gooseberry (Physalis peruviana) is an exotic fruit highly valued, however it is a very rich so

73 with organoleptic properties that make it an exotic fruit.

74 xtraction of high value-added compounds from exotic fruits' peels was optimized by Box-Behnken design

75 bic acid (AA) in Brazilian Amazon native and exotic fruits.

76 roduces a new paradigm to stimulate and tune exotic functionalities of oxide heterostructures with at

77 logy and is responsible for the emergence of exotic functionalities, such as magnetic order for cyani

78 ht's spin-orbit interaction (SOI) in certain exotic geometries and at the nanoscale.

79 Frustrated quantum magnets not only provide exotic ground states and unusual magnetic structures, bu

80 riven topological Kondo insulator (TKI) with exotic ground states.

81 Certain magnetic materials exhibit exotic hidden-order phases, in which the order parameter

82 community assembly, altering colonisation by exotic host species and richness-independent host phylog

83 phylogenetic diversity, and colonization by exotic host species.

84 Recently, an exotic hyperuniform fluid state was found in several non

85 agglutinin with corresponding sequences from exotic influenza A hemagglutinins and expressed them as

86 ns, consisting of globular head domains from exotic influenza A viruses and stalk domains from influe

87 Our observations suggest that exotic insulating states resembling those in SmB(6) and

88 t an effective magnetic field induced by the exotic interaction between unpolarized nucleons and pola

89 eoretical predictions about the abundance of exotic interaction-induced physics(1-6).

90 The exotic interactions can be mediated by hypothetical fund

91 sing the hydrophobic effect, as well as more exotic interactions such as C-H hydrogen bonding and hal

92 ment the Dicke model but also to design more exotic interactions, such as the two-photon Dicke model.

93 suggest this could represent the delivery of exotic interstellar material to the inner solar system v

94 ompensate for the ecological consequences of exotic invasions.

95 loss of habitat and indirect facilitation of exotic invasive species.

96 ientifically guided biological control of 43 exotic invertebrate pests permitted 73-100% yield-loss r

97 he detection sensitivity for measurements on exotic isotopes, a systematic study of the field-ionizat

98 ian degeneracies have also been exploited in exotic laser systems, new nonlinear optics schemes, and

99 presents the conventional route to designing exotic lattices, we use this scheme to demonstrate that

100 ctric inclusions are extensively studied for exotic light manipulations via controlling the local-res

101 rigin of intermolecular attraction, and (iv) exotic long-bonding and metallic delocalization phenomen

102 nal form of the superposition principle when exotic looped trajectories are taken into account.

103 of oxide electronic devices and discovery of exotic low-dimensional quantum phases.

104 anding of metallic 2D-TMDs in the search for exotic low-dimensional quantum phenomena, and stimulate

105 ng to provide an extra dimension in terms of exotic magnetic behavior as a result of their finite but

106 rbital-selective Mott phase (OSMP) induce an exotic magnetic order, never reported before.

107 olar interactions can drive the emergence of exotic many-body phases, such as interlayer pairing and

108 nide layer provides a platform for realizing exotic many-body systems, including coupled single-photo

109 and synthesize the ecological effects of 76 exotic marine species (about 6% of the listed exotics) o

110 degradation in ambient air, requirements of exotic materials or phases, or involvement of inherent e

111 e owing to their unique atomic structure and exotic materials properties, but little to no experiment

112 nes have already found niche applications in exotic materials with specialized mechanical properties,

113 hold for alternative theories of gravity or exotic matter.

114 behaviors present are not necessarily due to exotic mechanisms previously suggested, but rather well

115 synthetic strategy toward new materials with exotic metal-linker coordination modes.

116 ng topologically non-trivial systems(16,17), exotic metasurfaces(18), collective excitonic phases(19)

117 Here we report the observation of these exotic molecules and employ their exceptional properties

118 Such exotic multifold chiral fermion semimetal states could b

119 ted structures and properties because of the exotic nature of their chemical bonding as they contain

120 orbital two-channel Kondo effect displaying exotic non-Fermi liquid behaviour arises in the intricat

121 c interactions in the nodal direction in the exotic normal state phase.

122 for spintronics has yielded reports of more exotic objects including the biskyrmion, which consists

123 xotic marine species (about 6% of the listed exotics) on ten variables in marine communities.

124 heir overall response, leading to a range of exotic optical functionalities associated with abrupt ph

125 through interlayer coupling, giving rise to exotic optical, electric and spintronic behaviours(1-5).

126 proxies for wealth, such as burial goods or exotic or expensive-to-manufacture goods in household as

127 promising targets for genetic containment of exotic or genetically engineered trees.

128 the excess positrons, which may have a more exotic origin.

129 ay ubiquitously host nanometric skyrmions of exotic origins.

130 omenta, which we propose to give rise to the exotic p-wave nematic superconducting pairing in the M(x

131 e expand this area of research by probing an exotic parity-odd spin- and velocity-dependent interacti

132 tors, quantum spin liquids, and systems with exotic particles such as anyons and Majorana fermions(1,

133 nse are crucial to avoid severe epidemics of exotic pathogens.

134 Deviations from binary fracture produce more exotic patterns that are genetically linked to the forma

135 m, we design metasurface masks that generate exotic periodic lattices like gyroid, rotated cubic, and

136 nown guinea pigs transported, as part of the exotic pet trade, to both Europe and the southeastern Un

137 ches of more metal-oxide semiconductors with exotic phase structures and properties in graphene-encap

138 ll bandgap at the Fermi level, leading to an exotic phase transition in CrN.

139 s close to the two-dimensional F-model, with exotic phase transitions on topologically-constrained co

140 ce degrees of freedom provides a plethora of exotic phases and physical phenomena.

141 ground for exploring emergent phenomena and exotic phases in condensed-matter physics.

142 to explore collective manybody phenomena and exotic phases of matter as well as to enable advanced on

143 Exotic phases of matter can emerge from strong correlati

144 Spin ices are exotic phases of matter characterized by frustrated spin

145 fields and interacting particles can lead to exotic phases of matter that exhibit topological order a

146 led to advances including the observation of exotic phases of matter, the development of precision se

147 ause of the classical intractability of many exotic phases of matter.

148 actions in a heterostructure, often inducing exotic phases with unprecedented properties.

149 acterization of their emergent phenomena and exotic phases.

150 ticular, nanoscale flexoelectricity promises exotic phenomena and functions, but reliable characteris

151 ttracting growing interest for understanding exotic phenomena and in creating the next-generation of

152 Other exotic phenomena could become accessible at much higher

153 Exotic phenomena in systems with strongly correlated ele

154 rts that, instead of supersolidity, revealed exotic phenomena including quantum plasticity and mass s

155 from conventional base materials can exhibit exotic phenomena not commonly found in nature, achieved

156 Transition metal oxides host a wealth of exotic phenomena ranging from charge, orbital and magnet

157 e surfaces gapped, which enables a number of exotic phenomena that have potential applications in spi

158 entional materials and can give rise to many exotic phenomena, such as anomalous SFA-mediated quantum

159 agnetic exchange, potentially giving rise to exotic phenomena, such as chiral spin-liquid states in s

160 n solids, referred to as second sound, is an exotic phenomenon previously limited to a handful of mat

161 rapid incorporation of fluorine atoms in an exotic photochemical cascade whose mechanism and exquisi

162 spin liquids are an exciting playground for exotic physical phenomena and emergent many-body quantum

163 esonance but also open a route for exploring exotic physical phenomena through phonon properties in W

164 WSs offer a rare platform for realizing many exotic physical phenomena.

165 nstrains energy production in stars and more exotic physical processes in the universe, and provides

166 atomic metal(1), which is predicted to have exotic physical properties and the topology of a two-com

167 for simulating conventional and engineering exotic physical systems owing to their multiple tunable

168 a versatile material platform for exploring exotic physics and promises a scalable pathway to high-p

169 imental platform holds promise for exploring exotic physics in fractional quantum Hall systems, owing

170 Layered nickelates have the potential for exotic physics similar to high T C superconducting cupra

171 anical system that admit exact solutions and exotic physics.

172 10 canines trained for detection of a severe exotic phytobacterial arboreal pathogen, Candidatus Libe

173 We created communities varying in exotic plant dominance, plant traits, soil biota, and in

174 and herbivores were the strongest drivers of exotic plant effects, particularly on measures of soil c

175 bal climate change may increase invasions of exotic plant species by directly promoting the success o

176 alcohol, found in the seed coats of several exotic plant species, with promising properties for gene

177 soils subjected to prolonged invasion by an exotic plant that input recalcitrant litter (Japanese kn

178 most ecosystems now contain both native and exotic plants and herbivores.

179 ition explained differences in the ways that exotic plants interacted with novel biota compared with

180 cosystems subjected to prolonged invasion by exotic plants may be instrumental in distinguishing the

181 ngly impacted globally - for both native and exotic plants.

182 Such universality has originated from the exotic plasmonic effect of Au colloids (i.e., localized

183 onal ferroelectric superlattices can lead to exotic polar structures, such as a vortex state.

184 Then, the exotic polar topologies (e.g., domain walls, closure dom

185 , such as alpha-MoO(3) and V(2)O(5), support exotic polariton propagation, as their auxiliary optical

186 taxa like Betula, can be compromised by both exotic pollen fluxes and vegetation migration lags.

187 sed on pollen may be biased by the influx of exotic pollen to tundra settings.

188 but seldom documented is the introduction of exotic pollinator species.

189 e interface between them that enables new or exotic processes (the synthesis of new functional materi

190 ing (Kufri Jyoti, Kufri Pukhraj and PU1) and exotic processing (Atlantic and Frito Lay-1533) potato c

191 positively charged lattice framework, shows exotic properties according to the size and geometry of

192 t also allows for the further exploration of exotic properties and practical applications of type-II

193 ttom-up approaches limits the study of their exotic properties and practical applications.

194 nstitute a brand new class of materials with exotic properties awaiting discovery.

195 These phases can host exotic properties in otherwise conventional materials an

196 Coulomb correlations can manifest in exotic properties in solids, but how these properties ca

197 Photosensing and energy harvesting based on exotic properties of quantum materials and new operation

198 The exotic properties of quantum spin liquids (QSLs) have co

199 metals provides opportunities to explore the exotic properties of relativistic fermions in condensed

200 iscovery, or appreciation, of materials with exotic properties such as protected surface states.

201 nature of electrons and atoms, have revealed exotic properties that arise from correlations.

202 ons-have attracted broad attention for their exotic properties, such as extraordinary electron-donati

203 practical way to design novel materials with exotic properties.

204 ge transfer, can generate a rich spectrum of exotic properties.

205 enge, but have relied on the exploitation of exotic protein photoactivity, and are therefore not gene

206 of chalcogenide and ZBLAN fibers means that exotic pump sources have so far been necessary.

207 lts call for further investigations into the exotic quantum Hall states in the low-dimensional struct

208 as diverse as solids, magnets and potential exotic quantum materials.

209 hysics with neutral atoms and engineering of exotic quantum matter.

210 romising platform for further exploration of exotic quantum phases and transitions in 3D systems.

211 Exotic quantum phases can emerge in an engineered moire

212 These spin-orbit entangled states can host exotic quantum phases such as topological Mott state, un

213 ries propose the emergence of a multitude of exotic quantum phases, distinguishable by either local p

214 als with flat electronic bands often exhibit exotic quantum phenomena owing to strong correlations.

215 onducting state, will give rise to even more exotic quantum phenomena.

216 f devices based on carbon nanomaterials with exotic quantum properties.

217 egree of freedom through which the resulting exotic quantum states can be controlled.

218 nd charge and spin ordering can give rise to exotic quantum states, including the pair density wave (

219 non-Abelian anyons, a highly desired type of exotic quasiparticle.

220 However, typically these exotic quasiparticles are located far away from the Ferm

221 iral topological semimetal CoSi, which hosts exotic quasiparticles known as multifold fermions.

222 Dirac and Weyl semimetals host exotic quasiparticles with unconventional transport prop

223 Materials harbouring exotic quasiparticles, such as massless Dirac and Weyl f

224 rovides an ideal platform for realization of exotic quasiparticles, that are robust and whose functio

225 ling, i.e. there are unoccupied areas in the exotic range where climate is analogous to the native ra

226 1,2,4,7-cyclooctatetraenyl radical accesses exotic reaction intermediates on the triplet surface, wh

227 onversion of CO(2) to molecular oxygen is an exotic reaction, rarely observed even with extreme optic

228 the effects of invasive plants on native and exotic resident animals.

229 d tropyl (C(7)H(7)) radical intermediate and exotic ring opening-ring contraction sequences terminate

230 r systems, new nonlinear optics schemes, and exotic scattering features in open systems.

231 Long perceived as a form of exotic self-expression in some social fringe groups, tat

232 te the early neural processing of a somewhat exotic sense, called polarization vision.

233 ion restoration, specifically the removal of exotic shrubs, on pollination.

234 providing important insight that reveals an exotic silicon chemistry to form disilavinylidene.

235 a coherent description of quantum fields in exotic spacetimes containing closed timelike curves and

236 (+19%) but decreased silicon accumulation in exotic species (-10%).

237 e due to climate change, the introduction of exotic species and land-use change.

238 Exotic species are a growing global ecological threat; h

239 Human-assisted introductions of exotic species are a leading cause of anthropogenic chan

240 lude that novel biological interactions with exotic species are a more important driver of ecosystem

241 While some exotic species are implicated in many species extinction

242 roximately 10% (that is, 2 out of 19) of the exotic species assessed in at least three independent st

243 ities are not compensated by the presence of exotic species but are less severe under moderate levels

244 Moreover, exotic species consistently exhibit lower frost risk tha

245 by exotic abundance-communities dominated by exotic species exhibited a stronger positive relationshi

246 Exotic species fared much better, with O. cornifrons sta

247 ys: (1) Rapidly evolving viruses may prevent exotic species from establishing self-sustaining populat

248 Many exotic species have little apparent impact on ecosystem

249 2) Viruses can cause population collapses of exotic species in the introduced range.

250 onsider multiple global change factors (e.g. exotic species invasions and N deposition) when making p

251 t may lead to competition between native and exotic species of Osmia, and we discuss how disease spil

252 y directly promoting the success of invasive/exotic species or by reducing the competitive abilities

253 ily informed forecasts of invasive spread by exotic species or climate change migration by native spe

254 Separating the innocuous from the disruptive exotic species provides a basis for triage efforts to co

255 important first insight into how native and exotic species respond differently to invasion, the cons

256 nt gaps remain, including whether native and exotic species respond differently to plant invasion.

257 SO) by sharing the central nitrogen atom are exotic species that have been barely studied.

258 sis for triage efforts to control the marine exotic species that have the most impact, thereby helpin

259 driven by (i) changes in productivity, (ii) exotic species' traits, or (iii) novel (non-coevolved) b

260 With the introduction and establishment of exotic species, most ecosystems now contain both native

261 re the most disruptive trophic groups of the exotic species.

262 es (-19%), but remained largely unchanged in exotic species.

263 interspecific interactions among native and exotic species.

264 mising candidate to optically interface with exotic spin textures in van der Waals structures.

265 Quantum spin Hall system can exhibit exotic spin transport phenomena, mediated by its topolog

266 Exotic spin-dependent interactions between fermions have

267 onformational changes of SPs based on the 1D exotic stacking of hydrogen-bonded azobenzene hexamers.

268 ns which, when highly frustrated, lead to an exotic state of matter known as the Kitaev quantum spin

269 rimental platforms capable of realizing such exotic states now include synthetic many-body systems su

270 ing interactions in quantum materials induce exotic states of matter such as frustrated magnets, an e

271 oms offer a fertile ground in the search for exotic states of matter, including unconventional superc

272 predict, but also leads to the emergence of exotic states of matter.

273 Beyond first order, we found exotic states of synchronization with highly complex dyn

274 gh theory and experiment, we show that these exotic states rely on complex interactions emerging out

275 excitation has been used to induce similarly exotic states transiently.

276 thods-should enable the search for predicted exotic states(6,12-14,17-19,21), and an array of applica

277 yield nontrivial information on emergence of exotic states, its measurement in such small electron-nu

278 heterogeneously-assembled vertical layers on exotic substrates such as plastics and papers.

279 electron-phonon interaction can induce more exotic superconducting pairing than the s-wave, consiste

280 it of numerous long-standing predictions for exotic superconductivity with fragile pairing symmetries

281 k models(10,11), providing new insights into exotic systems that were not previously understood and o

282 s Archimedean spiral fibers that demonstrate exotic, telescoping elongation at break of 110%, or 30 t

283 aried in shapes from isodiametric spheres to exotic tetrahedrons, pentagons and pentagonal prisms.

284 Thermal rectification is an exotic thermal transport phenomenon which allows heat to

285 t herbivory on the population dynamics of an exotic thistle, Cirsium vulgare, in a field experiment r

286 interactions has been predicted to result in exotic 'time-crystalline' phases, in which a system exhi

287 wth in eight grass species, either native or exotic to Australia.

288 ime marks an important step in the quest for exotic topological excitations, such as Majorana fermion

289 findings provide new pathways to control the exotic topological ferroelectric structures for future n

290 e fields, relevant for classical and quantum exotic topological phenomena.

291 al insulators (TIs) are bulk insulators with exotic 'topologically protected' surface conducting mode

292 Chili shrimp paste (CSP) is an exotic traditional Southeast Asian condiment prepared us

293 ese findings pave the way for exploring many exotic transport and optical phenomena and applications

294 rk provides a simpler platform for accessing exotic transport phenomena arising in Weyl semimetals.We

295 Here, we examine how forestry plantations of exotic trees affect critical soil functions and the comp

296 r results indicate that the precursor to the exotic two-component atomic hydrogen may consist of elec

297 asma membrane instabilities to generate more exotic undulating and pearled membrane structures and dr

298 ithin WCSRG and Louisiana (commercials, wild/exotic) using 423 SSR alleles showed an average gene div

299 reported process results in the formation of exotic water cluster networks that are either higher in

300 y disentangling the drivers of change on the exotic wild boar population's niches, we found strong ev