ライフサイエンスコーパス: diagram

1 neuroscience is to study the brain's 'wiring diagram'.

2 that map onto known regions of water's phase diagram.

3 nd obtain experimentally the full dispersion diagram.

4 a narrow range of concentration in the phase diagram.

5 analysis of changes in parameter A and phase-diagram.

6 introduced to the state-of-the-art T-P phase diagram.

7 s a function of F or q, resulting in a phase diagram.

8 into the antiferromagnetic side of the phase diagram.

9 can be displayed through an interactive Venn diagram.

10 pillary number (Ca)-viscosity ratio(M) phase diagram.

11 tastable or the spinodal region of the phase diagram.

12 ible according to the Co-Mo bimetallic phase diagram.

13 obtained by the analysis of Landau-level fan diagram.

14 y conditions of both species through a phase diagram.

15 ented in a combined metabolic and regulatory diagram.

16 regions of magnetic field-temperature phase diagram.

17 g energies at every point in the alloy phase diagram.

18 thin films additionally affects their phase diagram.

19 ng to the ambient-pressure PbS-PbBr(2) phase diagram.

20 id (LDL) in the metastable part of the phase diagram.

21 e text]-[Formula: see text]) transport phase diagram.

22 rstiness and we analytically study its phase diagram.

23 bors a magnetically ordered one in the phase diagram.

24 rate charge-density-wave states in the phase diagram.

25 ferently, as illustrated in a Structure Zone Diagram.

26 e3 exhibits both these features in its phase diagram.

27 nd can be explained with an electric circuit diagram.

28 genus trace plot, as well as a genus matrix diagram.

29 elds H, we construct a detailed vortex phase diagram.

30 y state branches and generates a bifurcation diagram.

31 demonstrated by computing the stress-strain diagram.

32 mputing or measuring sequence-specific phase diagrams.

33 ddition of regulatory information to pathway diagrams.

34 ypically not accessible on equilibrium phase diagrams.

35 hology by theoretical and experimental state diagrams.

36 tes associated with eutectic points in phase diagrams.

37 oaches by also being able to interpret phase diagrams.

38 an extended regime in their respective phase diagrams.

39 cannot be anticipated from traditional phase diagrams.

40 ing pseudodoping to control electronic phase diagrams.

41 ctural stability is encoded within the phase diagrams.

42 ed AL type and gamma-CDs BS phase solubility diagrams.

43 active data tables, heatmaps and Sankey flow diagrams.

44 e the calculation of sequence-specific phase diagrams.

45 ins, in excellent agreement with known phase diagrams.

46 phase forms a dome-shaped area in the phase diagram(1).

47 (n = 361,194) for blood pressure and to the DIAGRAM 1000 genomes diabetes case (n = 26,676)-control

48 leased here as open hardware, with technical diagrams, a full parts list, and source code for its fir

49 he few known exceptions to the "Great Flight Diagram," according to which the flight speed of smaller

50 lowest-energy regions of the computed phase diagram affords two materials with previously unreported

51 We employ Lloyd's centroidal Voronoi diagram algorithm to solve this problem and find that it

52 The diagram also reveals the existence of special points at

53 Phase diagram analysis shows the existence of only two populat

54 quasi de Almeida-Thouless line in the phase diagram and a logarithmic time dependence of the magneti

55 When combined with the protein phase diagram and a tailored patchy particle model, we show th

56 s and concentration regimes within the phase diagram and are formed through the phase separation of a

57 The process diagram and critical thresholds provide important insigh

58 t can mimic the model and simulate its phase diagram and dynamics(4,5)), has a vital role in solving

59 We fingerprint the transient phase diagram and find a stable photo-induced chiral spin liqu

60 We establish the state diagram and find that short active rods at sufficiently

61 rized portion of the phosphorus-sulfur phase diagram and has therefore been subjected to a range of s

62 veal details about the superconducting phase diagram and its relationship to the nearby insulator.

63 ophila larvae by mapping the synaptic wiring diagram and neurotransmitters.

64 ein modification annotations to the sequence diagram and structure display.

65 The detailed simulations of the band diagram and the hole concentration distribution across t

66 Both the phase diagram and the relative superfluid fraction of the A an

67 ces relate both to the topology of the phase diagram and to the nature of the transitions, with a rem

68 ultiple options for downloading the reaction diagrams and associated data, and a new display of our e

69 We extracted data from participant flow diagrams and contacted study investigators to request da

70 KEGG and STRING for the retrieval of pathway diagrams and protein-protein interaction networks.

71 We re-analysed these claims using causal diagrams and showed that they are subject to collider bi

72 due to the discovery of rich proximate phase diagrams and unusual quantum coherence phenomena.

73 etes Genetics Replication and Meta-analysis (DIAGRAM), and the UK Biobank, resulting in 69,647 subjec

74 llective behavior, captured in protein phase diagrams, and molecular-level details, determined from h

75 s involve Matsubara sums of two-loop Feynman diagrams, and the numerical calculations are challenging

76 ing data from hundreds of experimental phase diagrams, and thousands of thermodynamic data sets from

77 algorithms are often intersected using Venn diagram approaches to identify "high-confidence" CNVs.

78 Venn and Euler diagrams are a popular yet inadequate solution for quant

79 Contact diagrams are displayed to compare the reference 3D struc

80 led layer is magnetically active, rich phase diagrams are expected in FeSCs, but this has not been ex

81 These diagrams are intended for the targeted use of POMs, and

82 Thousands of pathway diagrams are published each year as static figures inacc

83 These diagrams are useful for simplifying the biological proce

84 We construct a phase diagram as a function of twist angle and displacement fi

85 agnetic field reveals a wing-structure phase diagram as seen in itinerant ferromagnets such as ZrZn2

86 Diverse examples of MPC diagrams as a function of column temperature, mobile pha

87 First, we study phase diagrams as a function of macromolecule concentration an

88 We find that these phase diagrams as a function of pH strongly depend on whether

89 We advocate for the use of conceptual diagrams as a starting place to anchor researchers from

90 uage) format, electronic circuits and wiring diagrams as well as software code.

91 nate can be achieved at 350 degrees C in TGA diagrams, as other mineral carbonates only decompose to

92 greigite is a stable phase in the Fe-S phase diagram at ambient temperature.

93 Specifically, the stress-strain diagrams at lower velocities V manifest a pronounced str

94 ressure surface maps and lift and drag polar diagrams at various angles of attack.

95 Here, we construct a comprehensive phase diagram based on detailed magnetization measurements of

96 re these behaviors with a jamming-like phase diagram based on local cell density and EGF.

97 nalysis gave three zones in the van Krevelen diagram based on the possibility of the C(7-22)H(n)O(m)

98 CNVs compared to individual callers or Venn diagram-based approaches, with features such as exome ca

99 g coupling dramatically simplifies the phase diagram below half-saturation magnetization by stabilizi

100 recision torsion pendulum, and map the phase diagram between 0.1 and 5.6 bar.

101 bsequently reconstructed the complete wiring diagram by volumetric electron microscopy.

102 including the Omics Dashboard, multi-pathway diagrams called pathway collages, a pathway-covering alg

103 lytic activities at every point in the phase diagram can be created, enabling the identification of s

104 While the equilibrium phase diagram can be fit to an analytical theory, a more advan

105 ins, and how the GLN in the form of a matrix diagram can be used to study folding and unfolding route

106 We demonstrate that state diagram can explicitly identify the three characteristic

107 elated to the study of causation, how causal diagrams can facilitate the identification and testing o

108 etes Genetics Replication And Meta-analysis (DIAGRAM) case (n = 26,676) and control (n = 132,532) stu

109 se, this model presents an interesting phase diagram characterized by two quantum criticalities: a su

110 (1) steering committees; and (2) causal loop diagrams (CLDs), used to map the complex community-level

111 all conductivity (E(F)-E(z)-sigma(xy)) phase diagrams clearly exhibit oscillatory behaviors and cross

112 nt of the macromolecules and study how phase diagrams depend on pH.

113 red states, we calculated and analyzed phase diagrams dependence on the film-substrate mismatch strai

114 a computational unified electrochemical band-diagram description, we reveal a previously undescribed

115 We characterize the phase diagram determining the minimal volume of transactions t

116 stroke cases), type 2 diabetes mellitus from DIAGRAM (Diabetes Genetics Replication and Meta-analysis

117 dence and hysteretic dynamics over the phase diagram due to the impacts of complex slow inactivation

118 Construction of a suitable phase diagram enables each of these three morphologies to be r

119 y reveals the basic principles and a circuit diagram enabling speed modulation by mechanosensory feed

120 We show how the topology of the phase diagram evolves from the known case of (4)He, as the sys

121 The corresponding phase diagrams exhibit increased compositional resolution comp

122 We determined the surface phase diagram, explored the possible reaction pathways includi

123 Here we use thermodynamic Pourbaix diagrams (favorable redox and pH conditions) to describe

124 ination of an equilibrium (solubility) phase diagram for a real amyloid-forming peptide, Abeta(16-22)

125 itative calculation of a thermodynamic phase diagram for a specific peptide requires extremely long c

126 We demonstrate a phase diagram for air evolution regarding hydrodynamics.

127 le-network model, we first establish a phase diagram for compression-driven, stretching-dominated str

128 ilibrium concentration and temperature phase diagram for the amyloidogenic peptide fragment Abeta(16-

129 An experimental phase diagram for the formation of Ag nanocubes as a function

130 ionless group leads to a universal stability diagram for the log-rolling structures and allows for ap

131 n these results, we report a complete energy diagram for the regeneration reaction of rhodopsin.

132 ut inherently limited, hierarchical pedigree diagrams for a handful of plant varieties.

133 ed computations through calculation of phase diagrams for a set of archetypal intrinsically disordere

134 ercially available technologies, and machine diagrams for custom components operated with SPME/DART/M

135 ges from the ellipsoidal structures of phase diagrams for multicomponent systems and it has direct im

136 ) that enables the calculation of full phase diagrams for multicomponent systems comprising of coarse

137 his permits us to compute ground-state phase diagrams for multicomponent systems.

138 xperimental observations and establish phase diagrams for QAH insulators with high, tunable Chern num

139 A scalable alternative to Venn and Euler diagrams for visualizing intersecting sets and their pro

140 nking integral (GLN) in the form of a matrix diagram-for a pair of a loop and a tail-to study both th

141 anel Report-3 (EPR-3) asthma management step diagram format.

142 method provides the means to build a circuit diagram from recorded spike trains, thereby providing a

143 is then combined with the data-driven phase diagram generation tool to expand the limited number of

144 The hydrogen phase diagram has several unusual features which are well repr

145 relies on two crucial features of the phase diagram: (i) the marginal stability of the free-energy l

146 We deduce a phase diagram identifying key regimes for the dynamics (e.g. f

147 f [Formula: see text] and construct a 'phase diagram' identifying different phylodynamic regimes as a

148 plore genetic mutation data using a lollipop-diagram in a web browser.

149 ts are crucial in understanding of the phase diagram in these materials.

150 ails, annotate findings and export resultant diagrams in high-quality figures.

151 sing results by invoking the notion of phase diagrams in higher dimensional parameter space.

152 In the lower part of the three gene circuit diagrams in panel b, the flat-headed arrow linking lambd

153 (1807) has been one of the most influential diagrams in the history of environmental sciences.

154 Each phase diagram included hydrate and anhydrate deliquescence bou

155 It exhibits a rich phase diagram including a supersolid phase where a lattice sol

156 ccess different parts of electron-hole phase diagram, including BEC-BCS crossover, enabling tantalizi

157 Presence of an S-shaped bifurcation diagram indicates that the pathway acts as a bistable sw

158 Accordingly, we introduce several phase-diagram inspired parameters and employ machine learning

159 e of a quantum critical point in their phase diagram is a central enigma of the high-temperature supe

160 A morphological phase diagram is accomplished to systematically evaluate the i

161 Using this methodology, a borophene phase diagram is assembled, including a transition from rotati

162 n the fact that even if only one persistence diagram is available for analysis-the typical case for b

163 Because the wiring diagram is far too complex to be specified explicitly in

164 Furthermore, a fruitful phase diagram is obtained by controlling the direction of magn

165 The lollipop-diagram is one of the widely used graphical representati

166 s fact the transport and thermodynamic phase diagram is reproduced in detail.

167 n for the missing ice phase in the T-P phase diagram is that ice chi is a rare polarized ferroelectri

168 elow room temperature and the magnetic phase diagram is unknown.

169 diagram of V1 intrinsic circuitry, but this diagram lacks information about the output targets of V1

170 pct.) via CALPHAD (CALculation of PHAse Diagram) modeling and experimental validation.

171 reveal a strongly non-mean-field-like phase diagram, much richer than the common local-moment descri

172 In the resulting phase diagram, next to configurations predicted earlier for 3D

173 ssential for survival, but a complete wiring diagram of a higher-order circuit supporting associative

174 struct a detailed temperature-pressure phase diagram of a material on the border of a ferroelectric q

175 High-pressure melting anchors the phase diagram of a material, revealing the effect of pressure

176 comprehensive theoretical study of the phase diagram of a system of many Bose particles interacting w

177 We established a synaptic wiring diagram of amphid sensory neurons and amphid interneuron

178 We experimentally determined the full phase diagram of an IgG antibody.

179 the valley or spin quantum numbers.The phase diagram of bilayer graphene at high magnetic fields has

180 We resolved the crystal structure and phase diagram of borophene on Ag(111), but found that the doma

181 To characterize the cell types and circuit diagram of clonally related excitatory neurons, we perfo

182 flat electronic bands that host a rich phase diagram of correlated insulating, superconducting, ferro

183 we present a theoretical study of the phase diagram of dense hydrogen that uses machine learning to

184 his process is captured in a lineage tree: a diagram of every cell's ancestry back to the founding zy

185 under strain is investigated, and the phase diagram of FGT in the strain-temperature plane is obtain

186 flour sifter, constructed a velocity vector diagram of flour dust dispersal by each type of sifter,

187 Second, we developed a stability diagram of fractures based on linear elastic fracture me

188 n and the complex pressure-temperature phase diagram of gadolinium.

189 nfolding events were registered in the phase diagram of glutenins up to 80 degrees C, followed by par

190 Here we report the high-magnetic field phase diagram of graphite to exhibit just such a crossover.

191 a non-Fermi liquid phase in the global phase diagram of heavy fermion metals.

192 Finally, we present a general flow diagram of how civil wars in low-governance countries ca

193 he temperature-pressure-magnetic field phase diagram of LaCrGe3.

194 A growth diagram of lithium deposits is given to connect various

195 hod to investigate the low-temperature phase diagram of lithium.

196 zes affect the synchronization and its phase diagram of NONs coupled with nonlinear dynamics.

197 A flow diagram of studies included according to Preferred Repor

198 resent study we extend the functional wiring diagram of the ACx with an investigation of the connecti

199 In prior work, we used a wiring diagram of the brain called the human connectome to loca

200 bulk of the sample and may affect the phase diagram of the correlated and superconducting states.

201 rimentally mapping the low-temperature phase diagram of the Fermi-Hubbard model as a function of both

202 main fundamental open questions on the phase diagram of the Hubbard model, which describes strongly c

203 ion metals, we theoretically study the phase diagram of the Kondo lattice model with a nonmagnetic va

204 The complete synaptic wiring diagram of the LON paves the way to understanding how ci

205 the scale-free networks and obtain the phase diagram of the model.

206 ed viscosity data, [Formula: see text] phase diagram of the phase transitions of confined water in na

207 ologies of the organ, presenting a schematic diagram of the tentorium.

208 e the finite-temperature pseudo-binary phase diagram of the Ti2AlC-Cr2AlC via first-principles-guided

209 monitored, and a pressure-temperature phase diagram of the topotactic transformation is constructed

210 Here we obtain the phase diagram of the two-dimensional triangular-lattice Hubbar

211 xploiting the metastable region of the phase diagram of thermally responsive IDPs within microdroplet

212 charge distributions, and the simulated band diagram of these junctions, to allow applications to be

213 The phase diagram of these ternary mixtures can be studied exploit

214 ed here we have constructed a magnetic phase diagram of UN.

215 MiXeR results are presented as a Venn diagram of unique and shared polygenic components across

216 ry visual cortex (V1) have led to a detailed diagram of V1 intrinsic circuitry, but this diagram lack

217 However, the conventional diagram of V1 shows all L4B neurons, regardless of their

218 The phase diagram of water harbors controversial views on underlyi

219 The pressure-temperature phase diagram of ZIF-4 is strikingly complicated when compared

220 Comparisons between the P-T phase diagrams of Eu(Fe0.925Co0.075)2As2 and the parent compou

221 is the first report of RH-temperature phase diagrams of glucose and citric acid, information which i

222 e apply the DroMiCo to the analysis of phase diagrams of macromolecules, including synthetic polymers

223 is difficult to directly measure the wiring diagrams of neural circuits, there has long been an inte

224 tanding of such computations requires wiring diagrams of neuronal networks.

225 Phase diagrams of pollen folding pathways indicate that an inc

226 SIGNIFICANCE STATEMENT: Conventional diagrams of primate primary visual cortex (V1) depict ne

227 ting growing interest since their rich phase diagram often translates into an equally rich out-of-equ

228 t, widely-used CT-based vascular topographic diagrams omit demarcation of the inter-territorial borde

229 and strain, the dependence of the TBG phase diagram on the alignment(4,6) and thickness of the insul

230 These findings and HOP phase diagrams open a pathway to a large family of colloids wi

231 The ion-distribution diagrams over a wide pH range are presented in a compreh

232 ticeably, which is consistent with the phase diagram (PD) of cuprates.

233 astable energy landscapes of Pourbaix (E-pH) diagrams, providing quantitative insights into the size-

234 A radical-driven glycan deconstruction diagram (R-DECON) is developed to visually summarize the

235 gnetic properties, they possess a rich phase diagram (ranging from an unfrustrated square lattice to

236 of twist of about 1.1 degrees, with a phase diagram reminiscent of high-transition-temperature super

237 indicated the emergence of a characteristic diagram represented by three distinct LUE regimes (high,

238 The resulting pressure-temperature phase diagram reveals four, previously unknown, high-pressure-

239 The obtained strain-magnetic field phase diagram reveals that C(4) -symmetry-breaking anisotropy

240 d standard CQI tools (process maps, fishbone diagrams, run charts, Plan-Do-Study-Act [PDSA] cycles, a

241 ssembly can be recast into a universal phase diagram showing that viruses with high mechanical resist

242 to metallic lithium on the equilibrium phase diagram), so this Coble creep mechanism can effectively

243 thin the same stability region of a Pourbaix diagram, subtle variations in pH and redox potential can

244 ved crawling behavior in the dynamical phase diagram, such as self-trapped localized motion, 2-D diff

245 ective statistical framework for persistence diagram TDA analysis.

246 developed by Richard Feynman are the Feynman diagram technique and his variational approach.

247 Sankey diagrams, termed the "visible language of industrial eco

248 Our tools also produce more readable diagrams than current approaches, as we show by comparin

249 ion reaction, finding 2 regions in the phase diagram that are predicted to result in highly active ca

250 ary mixtures of these molecules have a phase diagram that contains dilute liquid, dense liquid, and g

251 Establishing a phase diagram that delineates the boundaries of phase co-exist

252 We predict a phase diagram that describes how the disruption of cytoskeleta

253 ated by higher-order structure in the wiring diagram that is adapted to natural input patterns.

254 Finally, we generate Pourbaix phase diagrams that serve as a thermodynamic atlas to indicate

255 culations, which allow us to create a 'phase diagram' that characterizes the electron flow regimes.

256 d then probe the underlying neuronal "wiring diagrams." This has changed with the advent of new, tran

257 possible origin, we used the GaAsBi band gap diagram to correlate their activation energies in sample

258 to develop an alternative method named state diagram to identify boundary formation pH for complex co

259 r species and construct an electronic energy diagram to unveil their reaction pathways in batteries,

260 We constructed alluvial diagrams to describe the course of frailty and Venn diag

261 s to describe the course of frailty and Venn diagrams to describe the overlap of frailty with disabil

262 Results are displayed on chemical space diagrams to paint a clear picture of how CPV(24h) varies

263 enomenological method analysing binary phase diagrams to predict HEA phases is presented.

264 olecule components, we present "relationship diagrams" to aid in the visualization of the many drug c

265 However, an easy-to-use lollipop-diagram tool with full functionality is still lacking.

266 We find a rich variety of phase diagram topologies, including multiple critical points,

267 xplore different regions of the carbon phase diagram traversed during detonation.

268 nt conditions, has a surprisingly rich phase diagram under pressure, taking up several structures wit

269 energy landscape of the Li-CO2 binary phase diagram using ab initio evolutionary structure searches

270 was assessed by RMSE, MAE, MBE, and a Taylor diagram using both training and validation datasets.

271 ns, which include complete topological phase diagrams using different values of the Hubbard potential

272 Equilibrium temperature-composition phase diagrams using first-principles calculations are generat

273 A valence-bond state correlation diagram (VBSCD) is employed to comprehend the results.

274 monly visualized in various clonal evolution diagrams, visual analytics methods that reveal the spati

275 An energy-level diagram visualizing different photochemical events in Zn

276 ve been successfully identified, and a phase diagram was constructed for the single bilayer binary li

277 ansitions occurring in the products, a state diagram was utilized, which was constructed using the fr

278 Using the full diagram, we examined the metastability gaps, i.e., the d

279 Guided by our phase diagram, we show that tau can be driven toward LLPS unde

280 Sequence homology diagrams were constructed to compare experimental and th

281 nematic order in TBG in regions of the phase diagram where superconductivity is observed.

282 This yields a unique phase diagram where the second-order phase transition line ter

283 e advantage of a theoretically derived phase diagram, where the phenomenon of excitability is reduced

284 iously unrecognized classes of surface phase diagram which differ from that established for simple la

285 elegantly obtained from a topological 'phase diagram', which provides a guiding principle for the des

286 ible to establish a carrier scattering phase diagram, which can be used to select reasonable strategi

287 stability analysis unveils a very rich phase diagram, which features stable, bistable, and unstable p

288 allows the calculation of a stability phase diagram, which shows that, under physiological condition

289 ctures of ligand-binding sites to 2D Voronoi diagrams, which are then used as the input to a pretrain

290 us to analytically compute topological phase diagrams, which determine quantized observables like cir

291 The process is aided by Pourbaix diagrams, which map the equilibrium solid and solution p

292 producible entropy change versus temperature diagrams, which was attributed to the release of interna

293 timal dosage protocols and establish a phase diagram with an error threshold delineating parameter re

294 A rich phase diagram with noncollinear twisted phases is obtained, an

295 Comparing the phase diagram with theoretical results, the strain-tunable mag

296 namical systems, as conveyed by 'bifurcation diagrams', with 'signal-response' curves measured by cel

297 explain these results in light of the phase diagram, with dehydration-driven ionic strength increase

298 ak regimes takes the shape of a phase beta-h diagram, with the regime boundaries occurring at h = 0 a

299 We find that TBBG exhibits a rich phase diagram, with tunable correlated insulator states that a

300 ervates formation were investigated by state diagram, zeta-potential, rheological, and phase composit