ライフサイエンスコーパス: critical point

1 or tuning appropriate materials to a quantum critical point.

2 m in the free energy becomes singular at the critical point.

3 he dynamically generated length scale at the critical point.

4 electronic symmetry breaking at a concealed critical point.

5 nounced peaks and damping around the quantum critical point.

6 Chol mixture and predict the location of the critical point.

7 ompositions that are in close proximity to a critical point.

8 trong fluctuations associated with a quantum critical point.

9 fective shear viscosity that diverges at the critical point.

10 g oscillatory approaches towards a depinning critical point.

11 al spin-singlet superconductivity across the critical point.

12 luid in the region close to the liquid-vapor critical point.

13 field even at T=0 K, that means at a quantum critical point.

14 hat are controlled by proximity to a quantum critical point.

15 e cluster growth can emerge at a non-trivial critical point.

16 ula: see text] enclosing the nematic quantum critical point.

17 omagnet CoNb2O6 (cobalt niobate) through its critical point.

18 Many adaptive systems sit near a tipping or critical point.

19 the phase diagram is controlled by a quantum critical point.

20 the vicinity of an antiferromagnetic quantum critical point.

21 ctuation-dominated antiferromagnetic quantum critical point.

22 ersality class, like the ordinary liquid-gas critical point.

23 perties arise from the presence of a quantum-critical point.

24 ty of the superconducting state to a quantum critical point.

25 very small thermal correction away from the critical point.

26 T(c), preventing proof of a magnetic quantum-critical point.

27 C(P)(max) ("Widom line") emanating from the critical point.

28 ising from the presence of the liquid-liquid critical point.

29 s close to but not exactly at the LL quantum critical point.

30 m picture of bridge evaporation far from the critical point.

31 her a fluid system is below, at, or above, a critical point.

32 ty critical points and one lower miscibility critical point.

33 cyclohexane heated and pressurized above its critical point.

34 , non-Fermi-liquid behaviour arises near the critical point.

35 why a system decreases the distance from the critical point.

36 cluding multi-stable behavior separated by a critical point.

37 als, revealing the existence of a mechanical critical point.

38 om being twice differentiable at an isolated critical point.

39 the complex phase diagram near the pseudogap critical point.

40 e4Sb12 is a known ferromagnet near a quantum critical point.

41 ce, through liquid-vapor coexistence, to the critical point.

42 y temperature and pressure ranges beyond the critical point.

43 ctivity being poised near an unusual kind of critical point.

44 that is typical of self-organization near a critical point.

45 rial near an itinerant ferromagnetic quantum critical point.

46 Ginzburg-Landau, valid around a second-order critical point.

47 g it on the paramagnetic side of the quantum critical point.

48 parameter with the "time distance" from the critical point.

49 ls) in supercritical carbon dioxide near the critical point.

50 A case is presented to illustrate the critical points.

51 hich are often in close proximity to quantum critical points.

52 ear pressure-tuned antiferromagnetic quantum critical points.

53 stems toward special low-temperature quantum critical points.

54 e more exotic materials, including a quantum critical point, a strongly temperature-dependent Hall re

55 The anomalies often occur near a quantum critical point--a continuous phase transition in the lim

56 At this critical point, accessed by applying pressure to the str

57 These critical points all are associated with the formation of

58 IM) and electron localization function (ELF) critical point analysis is reported for two types of lem

59 ation to accelerate both near the metastable critical point and almost everywhere below the fluid-flu

60 ics matched those expected near a liquid-gas critical point and described by the nearest-neighbor Isi

61 The presence or absence of a quantum critical point and its location in the phase diagram of

62 We discuss links between the dynamical critical point and quantum phase transitions, showing th

63 elds drive the system away from this quantum critical point and restore normal metallic behavior.

64 ecause of the strong coupling nature of this critical point and the "sign problem" plaguing numerical

65 Both the critical point and the predicted dependence of order on

66 llization in the vicinity of this metastable critical point and throughout the metastable fluid-fluid

67 ion of the chain encodes the position of the critical point and universal critical exponents, as well

68 effects have revealed new classes of quantum critical points and are uncovering a plethora of new qua

69 its a rich phase diagram with at least three critical points and four thermodynamically distinct amor

70 tiple critical points: two upper miscibility critical points and one lower miscibility critical point

71 We discuss critical points and pitfalls relating to optimization of

72 phase field, whereas disclinations arise as critical points and singularities in the phase field.

73 atures of the intra- and intermolecular bond critical points and the oxygen atom lone-pair locations

74 t weighting of material may be considered as critical points and were addressed in the present paper.

75 tate at low temperatures, locate the quantum critical point, and constrain the critical exponents.

76 ations associated with this magnetic quantum-critical point are essential for unconventional supercon

77 The dynamics at the critical point are in agreement with experiment.

78 phase transitions and the associated quantum critical points are a major field of research, but one i

79 nabla(2)rho values for the Cu-N2 bond critical points are analogous to those for polar closed-

80 We demonstrate that the additional critical points are part of the Ising universality class

81 A quantum critical point arises at a continuous transformation bet

82 ission is predicted to remain just below the critical point around Reff = 1.

83 ts a heavy-fermion antiferromagnetic quantum critical point as a function of either pressure or P/As

84 ence, and the contrast persisted through the critical point as shown by characteristic circle-to-stri

85 e of the phase behavior and the variation in critical point as the reaction proceeds.

86 ong liquids turn out to lie the closest to a critical point associated with a rigidity or jamming tra

87 dditional examples of local types of quantum critical points associated with superconductivity, howev

88 ching optimal doping, and suggests a quantum critical point at a hole doping of p(crit) approximately

89 rms derived from the existence of the second critical point at an elevated pressure.

90 y of a field-tuned antiferromagnetic quantum critical point at Hc approximately 50 tesla.

91 se diagram of water exhibits a liquid-liquid critical point at positive pressure.

92 tions show that the existence of the quantum critical point at temperatures approaching zero affects

93 composition, they pass through a miscibility critical point at the transition temperature.

94 ions we propose that TatA assembly reaches a critical point at which oligomerization can be reversed

95 ilayer system can be driven toward a quantum critical point at which the effective mass appears to di

96 Surprisingly, our analysis reveals a critical point at which the effective thickness of the w

97 compensatory phase and heart failure and the critical point at which the transition occurs are emerge

98 ransition in the supercooled regime with the critical point at ~207 K and 50 MPa.

99 a closed-loop miscibility gap bounded by two critical points at fixed temperature.

100 Estimating the critical points at which complex systems abruptly flip f

101 ing systems might operate in the vicinity of critical points, at the borderline between order and dis

102 ulene 1 has, in addition to the obvious bond critical points (BCPs), two weaker transannular points i

103 This threshold is in fact a critical point beyond which genetic information is lost

104 dome in the overdoped regime marks a quantum critical point beyond which there should be a genuine fe

105 well correlated with proximity to a quantum critical point, but the relative importance of quantum c

106 nearest-neighbour coupling strength up to a critical point, but this amplification was also accompan

107 from the well-known fact that water near its critical point can solubilize silica.

108 n shows signs of metallic transport near the critical point characterized by a resistance , indicativ

109 In membranes quenched far from a miscibility critical point, circular domains nucleate and then progr

110 We review the "critical point" concept for large earthquakes and enlarg

111 We further find that near a critical point (contact angle being ca. 153 degrees ) th

112 Critical point data have also been measured for all of t

113 nse of nano-architectures comprised of Drude-Critical Points (DCP) media (e.g., gold and silver) is p

114 n these contributions; and distance from the critical point (DFC) can be controlled through biologica

115 synthetic dinoflagellate were treated with a critical point drying protocol, transferred to a carbon

116 in response to ecdysone hormone signaling at critical points during development.

117 gnal for implied over explicit events at two critical points during the stories: (1) within the right

118 >0.95) are found between QTAIM metrics (bond critical point electron densities and delocalization ind

119 The Yb-Fe interaction energy and bond critical point electron density are slightly larger than

120 city was estimated as the difference between critical point elevations of recent and historic logisti

121 In these systems, a quantum critical point emerges as external parameters (such as c

122 e precision of this experimental approach, a critical point for applications to metabolomics.

123 ional activation in eukaryotes, and thus the critical point for gene regulation, is unknown.

124 ic multicomponent lipid mixtures, close to a critical point for phase separation, protein diffusion a

125 ean ridges, particularly at depths below the critical point for seawater (3,000 m).

126 o successfully determine the location of the critical point for the binary gammaS-water system.

127 cause of the convenience of having a quantum critical point for which the tuning parameter is the mag

128 dered difficult to determine the location of critical points for real-world networks, and it is even

129 mple of two interacting networks we find two critical points, four triple points, ten allowed transit

130 upercooled water is interpreted by adding a "critical point-free" scenario to the two competing scena

131 CeRhIn5 shifts its antiferromagnetic quantum critical point from 2.3 GPa to 1.3 GPa and induces a res

132 Upon approaching the critical point from high temperature, the intensity of t

133 ypothesized the existence of a liquid-liquid critical point from which a dividing line separates two

134 A critical point has now been reached at which the analysi

135 The critical point Hc = 1/2 corresponds to a widely studied

136 nd CeRhIn5 is a rare example where a quantum critical point, hidden by a dome of superconductivity, h

137 the close vicinity of a metamagnetic quantum critical point, high-purity strontium ruthenate Sr3Ru2O7

138 nsitions are found, each of them ending in a critical point: (i) a fluid-fluid transition at higher d

139 We show that this corresponds to a critical point in a 2D phase diagram of the monolayer.

140 e scaling behavior associated with a quantum critical point in a correlated metal.

141 sponse functions converge on approaching the critical point in a single line, the Widom line.

142 n abnormal stimulus or 'insult' applied at a critical point in in utero development.

143 t a second-order differential at an isolated critical point in k-space, which we clearly distinguish

144 this process is initiated is likely to be a critical point in regulating endocytic activity spatiall

145 s suggests that activation of caspase 8 is a critical point in the death decision process.

146 The induction of angiogenesis is a critical point in the development of most human tumors -

147 of the membrane, most dramatically near the critical point in the membrane phase diagram.

148 hat characterize the proximity of the second critical point in the miscibility phase diagram.

149 om one phase to another, which occurs at the critical point in the two-channel structures with one-di

150 patients with mixed uptake, who may be at a critical point in their disease evolution.

151 e vicinity of a magnetic field-tuned quantum critical point in ultrapure crystals of the ruthenate me

152 The AIM critical points in 1 are relatively insensitive to the r

153 paradigm, and we present a theory of quantum critical points in a variety of experimentally relevant

154 trol of superconductivity by tunable quantum critical points in CeRhIn5.

155 Loss of ribosome function or production at critical points in development leads to Minute phenotype

156 we review opportunities for intervention at critical points in developmental trajectories.

157 is complex should attack the pathogen at two critical points in its cycle.

158 The multiplicity of critical points in our model allows it to adapt to diffe

159 peutics might be chosen that target genes at critical points in the commonly perturbed pathway(s) of

160 connectivity changes during infancy, marking critical points in the development of the brain's functi

161 among patients with cancer and fluctuates at critical points in the disease trajectory.

162 TCF; sites that bind CTCF are found at other critical points in the genome.

163 e potential known to possess a liquid-liquid critical point, in which the competition between two liq

164 inuous quantum phase transitions, or quantum critical points, in a host of antiferromagnetic heavy-fe

165 In a fluid, when moving from the critical point into the single-phase region, the thermod

166 The approximately 245 K critical point is >/=10 K below the freezing point of in

167 he development of the entropy as the quantum critical point is approached and to study the thermodyna

168 As a critical point is approached from either high or low tem

169 In addition, as a critical point is approached from low temperature, the l

170 This critical point is called the "Darwinian Threshold" for t

171 d to higher pressure, and the confined water critical point is correlatively shifted to lower tempera

172 order parameter that exhibits scaling at the critical point is generically missing in these systems.

173 themselves to be poised in the vicinity of a critical point is lacking.

174 ndamental to all chemical processes, and the critical point is particularly important for supercritic

175 gn becomes more complex and interconnected a critical point is reached where a more integrated cellul

176 For smaller N, only the gap at the critical point is relevant, where it scales polynomially

177 The presence of a metastable fluid-fluid critical point is thought to dramatically influence the

178 re continuous phase transitions, or "quantum critical points" is a central topic of study in condense

179 en water is heated and pressurized above the critical point, it becomes a suitable solvent to employ

180 At the critical point itself cerium lacks any compressive stren

181 The existence of the quantum critical point leads to a divergence in the density of s

182 wo forms of liquid water and terminates at a critical point located at deeply supercooled conditions.

183 -liquid phase equilibria where the effective critical point may be reduced by tuning the structure of

184 at spin-fluctuations near a magnetic quantum critical point may provide an explanation for the superc

185 osome fibers isolated by the Langmuir trough-critical point method has been investigated in several s

186 compared to TFIIF 74(W164A), which carries a critical point mutation in alpha1.

187 en these competing Kondo states is a quantum critical point-namely, the exotic and previously elusive

188 t likely terminating into a crossover with a critical point near 30 GPa and 200 K.

189 -order liquid-liquid phase transition with a critical point near 48 GPa and 3,200 K that intersects t

190 By operating near a critical point, neural circuits can maximize information

191 At the quantum critical point, non-Fermi-liquid behaviour appears, whic

192 ly in a monotonic way even moving around the critical point, not only along isotherms or isobars.

193 tics have on the two-dimensional miscibility critical point observed in cell-derived giant plasma mem

194 pplied to the magnetic-field induced quantum critical point observed in YbRh(2)Si(2), for which we al

195 In the vicinity of a critical point of a cholesterol-phospholipid mixture, fl

196 lts suggest that the transitional stage is a critical point of action of Act1 in the elimination of a

197 ticles was long predicted to appear near the critical point of an Ising chain.

198 A critical point of control in BMP signaling is the phosph

199 ignaling in glioblastoma cells, clarifying a critical point of cross-talk between molecular signaling

200 A boundary-value problem for movement of the critical point of disconnection is established for an an

201 ested that each species may have a different critical point of failure.

202 The emergency department (ED) is a critical point of identification and treatment for some

203 A critical point of interaction between F(1) and F(0) in t

204 ived ecto-mesenchymal cells, Tak1 provides a critical point of intersection in a complex dialogue bet

205 The multipolar stage therefore seems to be a critical point of migration control and a vulnerable tar

206 udies demonstrate that the PI3K pathway is a critical point of miRNA regulation of immune cell develo

207 ing that integrin functional states may be a critical point of regulation.

208 equality for a quenching process across the critical point of second-order phase transitions, where

209 hen the global network dynamics operate at a critical point of state transition.

210 At temperatures below the critical point of the binary mixture and pressures above

211 At the critical point of the dynamics, the rescaled average ava

212 heating the cell to a temperature above the critical point of the liquid, and subsequent cooling of

213 ess, superconductivity occurs at the quantum critical point of the tin-doped metal.

214 the electronic conductivity, we estimate the critical point of the transition at temperatures near 2,

215 classes of Mobius transformations, with the critical point of the transition corresponding to the pa

216 At the quantum critical point of the transition, finite-size effects le

217 (defects) and the traversal rate across the critical point of transition.

218 sing and regulated secretion of IL-1beta are critical points of control of the biological activity of

219 We identify three critical points of failure in current informatic workflo

220 Defining critical points of modulation across heterogeneous clini

221 pothesized that signaling cascades represent critical points of susceptibility to miRNA dysfunction,

222 All three critical points of the evolutionary explanation proposed

223 Here, the critical points of the method were extensively revised,

224 syndromes often encode proteins that act at critical points of the pathways that control biological

225 Thus, no bond path and BCP (bond critical point) of the ED are found in the Zr.(C,H) regi

226 advantage of the proximity of the metastable critical point on the crystallization rates.

227 e gamma-phase to the alpha-phase ending in a critical point (p C, V C, T C), unique among the element

228 troscopic evidence for two potential quantum critical points, p = 0.19 for the pseudogap phase and p

229 failure of the traditional theory of quantum critical points, pointing to the need to incorporate nov

230 n the hyperfine shifts and the bond and ring critical point properties computed using atoms-in-molecu

231 atoms-in-molecules analysis reveals U-M bond critical point properties typical of metallic bonding an

232 a closed shell nature and the hydrogen bond critical point properties were highly correlated with th

233 16), and only small changes are seen in the critical point properties when the pi-electron count is

234 d domain boundaries) during growth above the critical point provides a possible route for the prepara

235 tuations around an antiferromagnetic quantum critical point (QCP) are believed to lead to unconventio

236 er superconductivity is favored at a quantum critical point (QCP) characterized by a divergent quasip

237 A quantum critical point (QCP) is currently being conjectured for

238 des with the putative existence of a quantum critical point (QCP) near x approximately 0.14, as propo

239 ween electronic ground states near a quantum critical point (QCP)--the location of a zero-temperature

240 m phase transition that happens at a quantum critical point (QCP).

241 e those systems in the vicinity of a quantum critical point (QCP).

242 tem that undergoes a transition at a quantum critical point (QCP).

243 s enter the critical dynamics near a quantum critical point (QCP).

244 rmetallics Yb2Pd2Sn, which shows two quantum critical points (QCP) under pressure and has been propos

245 comes almost gapless at the magnetic quantum critical point realized at Hc.

246 ctions that define a line emanating from the critical point, referred to as Widom line.

247 Such a critical point requires a line of classical phase transi

248 sed polymerases are above, near, and below a critical point, respectively.

249 ings demonstrate that proximity to a quantum critical point results in critical damping of the emerge

250 The critical points separate phases characterized by convent

251 ration, we examined fMRI signal at these two critical points separately for people with high working

252 posits the existence of a new line above the critical point separating two physically distinct states

253 A quantum critical point, separating the metallic phase, which is

254 For systems near a critical point small changes to component behaviour can

255 roach especially for on-site applications at critical points such as traffic stops and the workplace.

256 tion close to T = 0 is governed by a quantum critical point (T = 0, P = P(c)) at which the energy req

257 f density maxima of water, or emanate from a critical point terminating a liquid-liquid transition.

258 ion antiferromagnet CeRhIn5 toward a quantum critical point that becomes hidden by a dome of unconven

259 ressure presents a new type of naked quantum critical point that is free of disorder and symmetry-bre

260 ed with a local (or Kondo-breakdown) quantum critical point that is revealed in isotropic scattering

261 ties of supercooled water may be caused by a critical point that terminates a line of liquid-liquid s

262 ough paracrine mechanisms, identification of critical points that can be targeted to block TGFbeta pr

263 al La(2-x)Ce(x)CuO(4) with a line of quantum critical points that surrounds the superconducting phase

264 uum theory (diffusion) and at a self-similar critical point (the Ising model).

265 o a percolation transition, wherein around a critical point, the addition of a small number of connec

266 Near carbon dioxide's critical point, the addition to ethylene exhibits critic

267 the depolarized tuft is exerted at a single critical point, the apex of the distal trunk, and so was

268 After crossing the critical point, the condensates manifest delayed growth

269 Below the higher critical point, the condensation energy, obtained direct

270 Across the quantum critical point, the low-temperature Hall coefficient und

271 two water models displaying a liquid-liquid critical point, the relation between changes in dynamic

272 At the critical point, the temperature derivative of the concen

273 In membranes close to a miscibility critical point, the two liquid phases in the membrane ar

274 of simple amorphous solids is governed by a critical point, the unjamming transition where the press

275 al systems (flocks and schools), sits near a critical point; the contributions individuals make to co

276 at the ability to systematically control the critical point, thereby preparing spatially inhomogeneou

277 he experimental electron density at the bond critical points through an exponential relationship.

278 inhibitory mechanisms attenuate signaling at critical points throughout the network, from the recepto

279 y decision-makers with scientific experts at critical points throughout the regulatory process.

280 These results indicate the critical point thymic function regulation by IGF-1 invol

281 These findings suggest that BNPP is critical point to future research.

282 s deduced from the immediate vicinity of the critical point to obtain predictions can lead to results

283 ted with both intra- and intermolecular bond critical points, topological bond orders, atomic charges

284 The beams' deformation beyond the critical point triggers a dynamic transition of the part

285 grams are unusual in that they show multiple critical points: two upper miscibility critical points a

286 hases and the possible presence of a quantum-critical point underneath the superconducting dome.

287 al behaviour in the vicinity of such quantum critical points was anticipated nearly three decades ago

288 The bonding (3,-1) critical points were also found.

289 This is a critical point when considering these molecules as thera

290 a narrow crossover region close to a quantum critical point where it is normally expected to fail, bu

291 cts by inhibiting phosphorylation of TAK1, a critical point where signals generated by IL-1beta, TNF-

292 The data reveal a magnetic quantum critical point where superconductivity first appears, co

293 It exhibits two peaks, each located at a critical point where the Fermi surface of YBa2Cu3Oy is k

294 The jury trial is a critical point where the state and its citizens come tog

295 the sample close to the topological quantum critical point, where the gate voltage reversibly drives

296 The associated quantum critical point, which is "concealed" by the nematic phas

297 model ends in a finite-temperature dynamical critical point, which may be present in natural systems.

298 tinal circuits continued to operate near the critical point whose quantitative characteristics matche

299 es exhibit a consolution curve with an upper critical point, whose temperature and concentration decr

300 ent behavior of the response function at the critical point (zero magnetic field) leads to large fluc