ライフサイエンスコーパス: reflection

1 more recent work in the growing area of self-reflection.

2 compliance, resistance, elastance, and wave reflection.

3 ntiates from unity only by a small amount of reflection.

4 tional crystalline symmetries such as mirror reflection.

5 both photoluminescence emission and optical reflection.

6 d spatial shifts exist during total internal reflection.

7 ies with a keen interest in their own visual reflection.

8 gical feedback, perceptual changes, and self-reflection.

9 quency sound from greater distances and zero reflections.

10 irective antenna prone to receive echoes and reflections.

11 en two superconducting electrodes by Andreev reflections.

12 observed corresponding (1) to the absence of reflection, (2) to partial reflection and (3) to full re

13 Here we combine reflection 2D infrared vibrational echo spectroscopy (R-

14 generation (2D SFG), transmission 2D IR, and reflection 2D IR, the latter in either internal, attenua

15 of the medical system, 3) an opportunity for reflection, 4) an opportunity to describe their loved on

16 ight recent progress (2008-2016) in infrared reflection absorption spectroscopy (IRRAS) studies on ox

17 We obtain the intensity-dependent reflection, absorption, and effective permittivity and p

18 ons in model membranes (measured by infrared reflection-absorption or evanescent wave spectroscopy) d

19 gmuir films, polarization modulated-infrared reflection-absorption spectroscopy, and an automated dro

20 significantly advancing the use of infrared reflection-absorption spectroscopy, we demonstrate that

21 d using the polarization modulation infrared reflection/absorption spectroscopy, X-ray photoelectron

22 Additionally, this study indicates that team reflection after feedback seems to be very low in practi

23 Supporting nursing teams in team reflection after them having received feedback on qualit

24 to the absence of reflection, (2) to partial reflection and (3) to full reflection into the second wa

25 and transparency, diffraction, interference, reflection and antireflection, scattering, light harvest

26 een associated with neural responses to self-reflection and attitude toward social feedback but in di

27 y is mostly carried by surface waves, energy reflection and redirection might lead to harming surroun

28 components of self-related processing - self-reflection and subjective valuation - and examine cohere

29 tial to me, as well as provide some personal reflections and stories.

30 associated with the loss of combined parity (reflection) and time-reversal symmetries.

31 eld is directional (and thus likely to cause reflections), and under the bioluminescent searchlights

32 that can achieve the same broad-angle color reflection, and is applicable to wafer-scale fabrication

33 lations which relate the local transmission, reflection, and polarization conversion coefficients of

34 hey lead to confinement of the transmission, reflection, and polarization conversion coefficients to

35 f a single layer by 2 nanometers changes the reflection appreciably.

36 Their reflections are thought-provoking, but some statements c

37 Although Bragg reflections are typically associated with lattice struct

38 This Reflections article describes my early work on viral enz

39 ity of myosin (M2 and M6) and troponin (Tn3) reflections, as well as a reduction in cross-bridge radi

40 ptimized the wing scale morphology for white reflection at a minimum material use.

41 report soliton-dependent 2D graphene plasmon reflection at different 1D domain-wall solitons in bilay

42 However, spin wave reflection at the waveguide edge has previously limited

43 s phenomenon could explain the apparent wave reflection at tissue edges or multiple foci observed at

44 ed to placebo, nitrite decreased aortic wave reflections at rest and improved arterial compliance and

45 f the impurity exhibits characteristic Bragg reflections at the edge of an emergent Brillouin zone.

46 (infrared) spectra registered using a single reflection ATR (attenuated total reflection) diamond acc

47 FT) near-infrared (NIR) and attenuated total reflection (ATR) FT mid-infrared (MIR) spectroscopy were

48 rial lattice, in direct and Attenuated Total Reflection (ATR) geometries, and assess their sensitivit

49 lly smaller than macroscale attenuated total reflection (ATR) spectroscopy.

50 latter in either internal, attenuated total reflection (ATR), or external reflection configuration.

51 In this study micro-attenuated total reflection (ATR)-FT-IR spectroscopic imaging was require

52 Unlike traditional reflection-based methods, our measurements are reliable

53 spective for qualitatively understanding the reflection behaviors of the acoustic gradient metasurfac

54 Results show the ability to reduce reflection below 0.05% in accordance with recent experim

55 he Fabry-Perot cavity resonance via multiple reflections between the "quasi-open" boundary of resonat

56 We demonstrate that the polarizing reflection can be explained by a resonant coupling with

57 the plasmonic metapixel; which permits high reflection capability whilst providing vivid, polarizati

58 ient metasurface, and the all-angle negative reflection characteristic possessed by acoustic gradient

59 at AQP4-expressing Xenopus oocytes display a reflection coefficient <1 for NH4Cl at pH 8.0, at which

60 bility coefficients (hydraulic conductivity, reflection coefficient and diffusive solute permeability

61 stiffness gradient, aortic taper, or global reflection coefficient in the model produced similar res

62 tuning the geometry of the metamaterial, the reflection coefficient of the panel can be tailored to o

63 ed the changes in the water permeability and reflection coefficient to proteins and reduced the volum

64 ranscellular pathways, and a decrease in the reflection coefficient to proteins.

65 oefficient of the peritoneum and a decreased reflection coefficient to proteins.

66 to obtain surfaces with spatially dependent reflection coefficients having uniform magnitude Fourier

67 how that both the absorption coefficient and reflection coefficients of the lead chromates change as

68 tenuated total reflection (ATR), or external reflection configuration.

69 nals from the underlying substrate in common reflection-configuration techniques.

70 (BSDF), epi-fluorescence (EF), interference reflection contrast (IRC), and darkfield surface reflect

71 eature size, complementing the findings with reflection dark field measurements from different np-Au

72 ection contrast (IRC), and darkfield surface reflection (DFSR) are advanced but expensive light micro

73 ng a single reflection ATR (attenuated total reflection) diamond accessory.

74 hicknesses the structure exhibits a very low reflection due to ENZ behavior.

75 thin electrolyte layer between the internal reflection element (IRE) and the surface of the WE.

76 g molecules from the surface of the internal reflection element.

77 spectroscopy using a polymer coated internal reflection element/waveguide is an established sensor pl

78 icromachined Si wafers, designed as internal reflection elements (IREs) for attenuated total reflecta

79 dysfunctions in the brain circuitry for self-reflection, emotion, and cognitive control, a brain-base

80 Here we employ a new technique, reflection enhanced two-dimensional infrared (2D IR) spe

81 remote optical observations, and radio wave reflection experiments have produced conflicting results

82 rent barriers, there is a pronounced Andreev reflection feature providing evidence for proximity-indu

83 nference drawn from polarized total internal reflection fluorescence (polTIRF) experiments.

84 Using total internal reflection fluorescence (TIRF) and confocal microscopy,

85 In addition, total internal reflection fluorescence (TIRF) imaging was used to visua

86 Total internal reflection fluorescence (TIRF) microscopy and its varian

87 Furthermore, in vitro total internal reflection fluorescence (TIRF) microscopy demonstrated t

88 Time-lapse total internal reflection fluorescence (TIRF) microscopy is used to dir

89 Fast dual-color total internal reflection fluorescence (TIRF) microscopy, single partic

90 Using total internal reflection fluorescence (TIRF) microscopy, we studied th

91 to be counted using standard total internal reflection fluorescence (TIRF) microscopy.

92 olecules can be studied using total-internal reflection fluorescence (TIRF).

93 ll surface biotinylation, and total internal reflection fluorescence live cell imaging of transfected

94 nd-state depletion (GSD), and total internal reflection fluorescence microscopy (TIRF) that a proport

95 gle-particle resolution using total internal reflection fluorescence microscopy (TIRF).

96 ing VASP proteins by in vitro total internal reflection fluorescence microscopy (TIRFM) and kinetic a

97 Total internal reflection fluorescence microscopy (TIRFM) is well suite

98 in rat hippocampal neurons by total internal reflection fluorescence microscopy (TIRFM).

99 Total Internal Reflection Fluorescence microscopy and biotinylation ass

100 PLM combines polarized total internal reflection fluorescence microscopy and single-molecule l

101 leton within live cells using total internal reflection fluorescence microscopy and single-molecule t

102 Using total internal reflection fluorescence microscopy and structure illumin

103 Immunofluorescence and total internal reflection fluorescence microscopy confirmed that MHV-A5

104 Total internal reflection fluorescence microscopy imaging revealed that

105 olecule motility assays using total internal reflection fluorescence microscopy indicate that both Ho

106 ed by Syn-1A deletion, EM and total internal reflection fluorescence microscopy showed that Syn-1A-KO

107 Here we show using total internal reflection fluorescence microscopy that KlpA-a kinesin-1

108 Here we image with two-color total internal reflection fluorescence microscopy the local changes of

109 -particle fusion assays using total internal reflection fluorescence microscopy to compare hemifusion

110 We used confocal and total internal reflection fluorescence microscopy to count the number o

111 Here, we used multicolor total internal reflection fluorescence microscopy to directly observe a

112 We used total internal reflection fluorescence microscopy to quantify fusion-po

113 ion of the cell, we have used total internal reflection fluorescence microscopy to study the movement

114 Total internal reflection fluorescence microscopy was performed to imag

115 Total internal reflection fluorescence microscopy was used to probe bin

116 real time, we used polarized total internal reflection fluorescence microscopy with nanometer accura

117 ied fluorescence confocal and total internal reflection fluorescence microscopy, and sliding window t

118 Live-cell total internal reflection fluorescence microscopy, electrophysiology, a

119 rangement, and mobility using total internal reflection fluorescence microscopy, resonance energy tra

120 Using total internal reflection fluorescence microscopy, the fusion of single

121 actin filament observation in total internal reflection fluorescence microscopy, to examine relevant

122 Using dual-color total internal reflection fluorescence microscopy, we demonstrate compl

123 d single-molecule multi-color total internal reflection fluorescence microscopy, we discovered that s

124 Using single-molecule total internal reflection fluorescence microscopy, we examined the rota

125 Using in vitro total internal reflection fluorescence microscopy, we show that bacteri

126 Using total internal reflection fluorescence microscopy, we show that the mem

127 otubule assay and examined by total internal reflection fluorescence microscopy.

128 Cof2, and ADF using in vitro total internal reflection fluorescence microscopy.

129 the plasma membrane by using total internal reflection fluorescence microscopy.

130 n atomic force, confocal, and total internal reflection fluorescence microscopy.

131 e molecule system using TIRF (total internal reflection fluorescence) microscopy and purified human t

132 combination of live confocal, total internal reflection fluorescence, and superresolution microscopy,

133 e developed a liposome-based, total internal reflection fluorescence, fiber-optic biosensor (TIRF-FOB

134 Total internal reflection fluorescence-based single-molecule Forster re

135 c gradient metasurface supports the negative reflection for all-angle incidence.

136 Herein, we employed attenuated total reflection Fourier transform infrared (ATR-FT-IR) spectr

137 scopy where we have applied attenuated total reflection Fourier transform infrared (ATR-FT-IR) spectr

138 In this study, Attenuated Total Reflection Fourier transform infrared (ATR-FTIR) spectro

139 skin layer determined from attenuated total reflection Fourier transform infrared spectroscopy (ATR-

140 es was examined by means of attenuated total reflection Fourier transform infrared spectroscopy (ATR-

141 Attenuated total reflection Fourier transform infrared spectroscopy revea

142 characterized by (11)B NMR, attenuated total reflection Fourier transform infrared spectroscopy, circ

143 d region using conventional attenuated total reflection Fourier transform spectroscopy (ATR-FTIR) wit

144 This study presents, attenuated total reflection Fourier transforms infrared spectroscopy of d

145 sorption technique, in situ attenuated total reflection Fourier-transform infrared (ATR FT-IR) spectr

146 lectrostatic interaction by attenuated total reflection Fourier-transform infrared spectroscopy and m

147 were monitored by real-time attenuated total reflection Fourier-transform infrared spectroscopy.

148 is identified by Raman and attenuated total reflection-Fourier transform infrared spectroscopy, and

149 rog, Rana temporaria, using attenuated total reflection-Fourier-transform infrared (ATR-FTIR) spectro

150 an ideal candidate for the demonstration of reflection free omnidirectional absorption of GSPP in th

151 nnel crosstalk, which are caused by specular reflection from a plane parallel to the propagation path

152 on-polaritons, as evidenced by comparing the reflection from aperture arrays coated with Au and with

153 tochrome-mediated detection of far-red light reflection from neighboring plants activates growth-prom

154 ltipath effects caused by beam spreading and reflection from the surrounding objects affect the syste

155 Even after partial reflection from the transition region, a significant amo

156 s, along with the possibility of enhanced UV reflection from these surfaces, can have complex impacts

157 ential predators, animals may be revealed by reflections from their body surface [4-7].

158 iemens per centimeter) and multiple internal reflections from Ti3C2Tx flakes in free-standing films.

159 In this study, attenuated total reflection FTIR (ATR-FTIR) spectroscopy combined with ch

160 eagent enabled analysis via Attenuated Total Reflection FTIR and muFTIR spectroscopy.

161 Neutron reflection further substantiates that PlyC penetrates bi

162 s of distinct polymorphs in transmission and reflection geometries.

163 e-domain spectroscopy (THz-TDS) operating in reflection geometry can be used for quantitative conduct

164 Both transmission and reflection (grazing incidence) geometries are addressed,

165 ient metasurface, and the all-angle negative reflections have been perfectly verified by experimental

166 on single crystals investigated with in situ reflection high-energy electron diffraction (RHEED) and

167 lexible single pulsed nanosecond laser based reflection holography and a cornercube retroreflector (C

168 icroscopy, typically based on total internal reflection illumination, has taken our understanding of

169 ters in the case of PTIR with total internal reflection illumination.

170 completely flipped towards matching the hand reflection (illusory displacement), indicating facilitat

171 pproach based upon frustrated total internal reflection imaging that can be used to acquire images of

172 With peak exercise, increased wave reflections, impaired compliance, and increased resistan

173 ss of extra energy beyond band gap and light reflection in particular wavelength range is known to hi

174 resulting from the interference of multiple reflections in disordered media are well-known to scramb

175 Arterial load and wave reflections in HFpEF were similar to those in control su

176 concave surface by continuous total internal reflection, in a precise and controlled manner to except

177 8 vs 1.50 +/- 0.27 mL/mm Hg; p = 0.437), and reflection index (0.36 +/- 0.04 vs 0.34 +/- 0.09; p = 0.

178 articles had additional electron diffraction reflections indicative of a CeO2 superstructure containi

179 nd performance; and (2) whether and how team reflection influences nurses' perceptions.

180 mical reactions by means of attenuated total reflection infrared (ATR-IR) spectroscopy.

181 n, (2) to partial reflection and (3) to full reflection into the second waveguide.

182 The reflection is backed up by the relevant (policy and tech

183 thin channels or some non-uniform background reflections, it still afforded order-of-magnitude quanti

184 An Andreev reflection junction, which can be used to evaluate spin

185 is a formidable challenge for achieving high reflection loss and impedance matching between the absor

186 Minimum reflection loss of -44.7 dB and absorbing bandwidth of 4

187 ancement is attributed to attenuation of the reflection loss of p-polarized light and multiple reflec

188 n applied bias VSD leads to multiple Andreev reflections (MAR), which in the limit of weak tunneling

189 can be linked to the winding numbers of the reflection matrices in the electrodes, which also equal

190 The reflection method can take usable 2D IR spectra on the m

191 Using total internal reflection microscopy, fluorescent protein-tagged PKCs,

192 ired by widefield microscopy, total internal reflection microscopy, structured illumination microscop

193 of membrane disruption using total internal reflection microscopy.

194 on infrared spectroscopy in attenuated total reflection mode (FT-IR ATR) and identified successfully

195 ed on Long Period Gratings (LPGs) working in reflection mode for the detection of human Thyroglobulin

196 Here, in-situ optical spectromicroscopy in reflection mode is used to study the growth mechanisms a

197 to the transmission geometry, measurement in reflection mode requires careful alignment and complex a

198 icrobalance-dissipation (QCM-D) setup with a reflection-mode localized surface plasmon (LSPR) sensor.

199 A method based on a wave reflection model was thereafter employed to define a var

200 etasurfaces working both in transmission and reflection modes based on conventional thin film silicon

201 e incident beams, and the all-angle negative reflection occurs when the first negative order Floquet-

202 subtractive color filtering and mirror-like reflection occurs.

203 Measurements of the reflection of a probe laser from the input mirror of an

204 sified as NASH, increasing to 27% by 2030, a reflection of both disease progression and an aging popu

205 of using spine dynamics as a straightforward reflection of circuit rewiring.

206 ed to be intrinsic for Ad5 vectors and not a reflection of comparing a nonreplicating vector to a liv

207 e to an experienced external event, a likely reflection of different underlying selection pressures.

208 stinct chromatin states are instead simply a reflection of discrete pluripotent states.

209 that the progression measure is a sensitive reflection of disease burden, that the effect size at th

210 totoxic, the observed clinical efficacy is a reflection of disease stabilization rather than tumor re

211 Barnett noble gas signatures are likely the reflection of distinct evolution histories with Strawn g

212 ific functional characteristics, which are a reflection of distinct gene-expression programs.

213 signaling in normal epithelia is primarily a reflection of domain-specific receptor expression and no

214 ose reported by the general public, likely a reflection of greater emotional and physical burdens fro

215 rmine if our previous findings are a general reflection of IM behavior that can be applied to various

216 pEF), its functional implications beyond the reflection of left ventricular (LV) pathology are not we

217 is whether nuclear organization is simply a reflection of nuclear processes such as transcription an

218 ted receptor regions may not give a complete reflection of peptide/receptor interactions and should b

219 ve FRs in PUF may be declining, perhaps as a reflection of recent changes to TB-117 and Proposition 6

220 ctive protein (CRP) encoded by CRP gene is a reflection of systemic inflammation.

221 ty in grip and perceptual studies, is a poor reflection of the actual contact mechanics that take pla

222 This commentary is a reflection of the authors' experience on NITAG's role as

223 riptomes generated from plant organs are the reflection of the contribution of the different cell typ

224 The health of mammals is a reflection of the diversity and composition of the intes

225 patterns in mating system are more likely a reflection of the frequency of life forms across latitud

226 ngs indicated both potential and caution and reflection of the immunologic state at the time of conve

227 within circulating tumor DNA may be a better reflection of the inherent intratumoral heterogeneity th

228 directly neighbouring hospitals is a direct reflection of the number of shared patients, the distanc

229 As a reflection of the patient's inflammatory status, pretrea

230 d and are amenable to targeted therapy, as a reflection of the power of precision medicine.

231 and support the notion that this is likely a reflection of the reduced susceptibility of Trpc3-defici

232 of clinically distinct tauopathies may be a reflection of the strain of misfolded tau that propagate

233 tty acids, cholesterol and nucleotides, as a reflection of their dominant role in clearing the bulk o

234 The reflection of unpolarized normally incident light is blu

235 hin a single domain such as intrahemispheric reflections of sensory and motor cortices.

236 ing wave formed by the incident wave and its reflection on a mirror.

237 uidelines of the National Committee of Ethic Reflection on Animal Experimentation.

238 Writing this article required reflection on events occurring over several decades that

239 The target article promotes reflection on existing findings.

240 uaca Las Estrellas, and as part of a broader reflection on expansionary dynamics and statecraft.

241 outbreak in West Africa aimed at stimulating reflection on lessons learned that may improve the respo

242 ixels with polarization dependent multicolor reflection on mirror-like surfaces.

243 but not within regions associated with self-reflection on personality traits.

244 se of this committee is therefore to advance reflection on the bioethical issues encountered in biome

245 y career in hematopathology, and my personal reflections on scientific advances in the field.

246 This article provides my reflections on these studies that began with enzymology

247 This article is my personal "reflection" on these scientific advances.

248 Here I present my personal "reflections" on how our understanding of phospholipid fu

249 uppressing the specular electromagnetic wave reflection or backward radar cross section (RCS).

250 e novel 'metamaterials', optimised for light reflection or harvesting.

251 Exercise reduced peripheral arterial wave reflection (P<0.05), which was not further augmented by

252 a set of 360 images with approximately 2,000 reflections per image can be processed in approximately

253 el can be tailored to obtain either a custom reflection phase, moderate or even perfect absorption.

254 rigid bodies with an inversion centre and no reflection planes.

255 printed electrodes via a specific cell and a reflection probe, which allows one to observe changes oc

256 When combined with a third seismic reflection profile of the western Himalayas, the new pro

257 provided by two newly obtained, deep seismic reflection profiles.

258 Exerting well-defined control over the reflection (R), absorption (A), and transmission (T) of

259 deband and polarization-insensitive specular reflection reduction for both normal and wide-angle inci

260 ncrease in the bandwidth of blazing/specular-reflection-rejection, demonstrated here at X-band for co

261 of light polarisation upon transmission and reflection, respectively) as well as a nonreciprocal pha

262 on single-particle dual-mode total internal reflection scattering (SD-TIRS) with a transmission grat

263 Such reflections should take into account perspectives not us

264 r forward-scattering properties of different reflection sites are used to assess the textural propert

265 The transmission and reflection spectra of the Klein tunneling of optical wav

266 dicts the adsorbed condition by modeling the reflection spectra using the transfer matrix method.

267 e BZA single crystal was obtained by Andreev reflection spectroscopy analysis.

268 l conductivity in few-layer graphene through reflection spectroscopy at visible wavelengths.

269 mbination of our recently validated resonant reflection spectroscopy method combined with optical fre

270 Here we report low-temperature polarized reflection spectroscopy of atomically thin WS2 and MoS2

271 We applied handedness-resolved optical reflection spectroscopy to probe the inter-LL transition

272 um-frequency generation and attenuated total reflection spectroscopy to probe the ionization state of

273 ing of nanoparticle growth by total internal reflection spectroscopy.

274 over a large area, lead to a sharp peak in a reflection spectrum for distinctive color generation wit

275 ered in shape and position of the equatorial reflections, suggesting that the two peptides adopt dist

276 Total Internal Reflection Sum Frequency Generation Vibrational Spectros

277 above the gap eVSD >/= 2Delta, with Andreev reflections suppressed, one would expect the current to

278 ted from the substrate, and we refer to this reflection suppression as substrate-mediated Kerker effe

279 ed infrared microscopy with attenuated total reflection surface enhanced infrared spectroscopy (ATR-S

280 nes in PbTaSe2 are not only protected by the reflection symmetry but also characterized by an integer

281 graphene and graphite due to the absence of reflection symmetry in puckered phosphorene.

282 the Gamma point and are protected by mirror reflection symmetry.

283 ridge structures that produce a bright, blue reflection that remains stable across wide viewing angle

284 This sparked a period of methodological reflection that we review here and call Psychology's Ren

285 We observe strong disorder-induced reflections that show that the interplay of localization

286 phenomenon, we use frustrated total internal reflection to image the asperities of the skin that are

287 Weak-to-absent PmP reflections to the west are attributed to serpentinite i

288 ogical (individualized or group feedback and reflection) training strategies.

289 structures have their spectral properties of reflection 'tuned' using the (zeroth-order) Bragg criter

290 An invitation to write a "Reflections" type of article creates a certain ambivalen

291 The reflection-type LPG (RT-LPG) biosensor, coated with a si

292 ontrol and tuning of the polarization of the reflection using shape-anisotropic hollow scatterers is

293 using surface plasmon resonance and neutron reflection, we characterized the interaction of zetacyt

294 modulation of this stripe phase using Bragg reflection (which provides evidence for spontaneous long

295 ction loss of p-polarized light and multiple reflections within the wafer-based IRE.

296 Total reflection X-ray fluorescence (TXRF) is becoming more an

297 Using total reflection X-ray fluorescence (TXRF) spectrometry and in

298 combination with a low power benchtop total reflection X-ray fluorescence (TXRF) system has been dev

299 Total reflection X-ray fluorescence (TXRF)-based X-ray absorpt

300 Total reflection X-ray fluorescence spectrometry was utilized