ライフサイエンスコーパス: reflection

1 flection on recalled events (recall-assisted reflection).

2 phase showing structural coloration by Bragg reflection.

3 internal tsunami waves and turbidity current reflection.

4 erved wavelength- and polarization-dependent reflection.

5 ler cell microvilli could minimize the light reflection.

6 to increase absorption and minimize surface reflection.

7 y showing the rhombohedral signature Bragg's reflections.

8 published 100 papers in JBC, including this "Reflections."

9 role relevant training and opportunities for reflection; 3) clinical experts and senior staff promoti

10 ly enhanced, reminiscent of multiple Andreev reflections(5-7).

11 This will be followed by reflections about the future of radiology research in th

12 Analysis of in situ infrared reflection absorption spectra for Au@PtIr and its bimeta

13 functional theory calculations and infrared reflection absorption spectroscopy (IRAS) to identify th

14 try, and at the molecular level, by infrared reflection absorption spectroscopy.

15 o present the first ever extreme ultraviolet reflection-absorption (XUV-RA) spectroscopy measurements

16 surface pressure-area isotherms and infrared reflection-absorption spectroscopy (IRRAS).

17 ration using polarization-modulated infrared reflection-absorption spectroscopy.

18 irmed using polarization-modulation infrared reflection-absorption spectroscopy.

19 et independent, exploration of visible-light reflection alongside audible sound-wave generation.

20 s onto silicon substrates and measured their reflection and absorption characteristics as functions o

21 g a combination of frustrated total internal reflection and absorption, stretchable DFOSs can disting

22 e controlled-source electromagnetic, seismic reflection and borehole data with hydrological modelling

23 becomes significant, along with the surface reflection and bulk absorption of electromagnetic radiat

24 ata showing contrast resulting from specular reflection and diffraction of helium atoms from an atomi

25 the development of neural systems supporting reflection and EF skills to an increased risk for genera

26 al recovery in the presence of large surface reflection and measurement noise.

27 in guiding elastic waves is the presence of reflection and scattering at sharp edges, defects, and d

28 sed surface passivation, effectively reduces reflection and surface recombination of photogenerated c

29 ve mid-infrared emission, effective sunlight reflection and therefore excellent all-day radiative coo

30 er transform infrared spectroscopy (FTIR) in reflection and transmission modes, and nano-FTIR microsc

31 ically growing might be a source of acoustic reflections and aspherical microbubble oscillations, whi

32 poor performance due to the presence of the reflections and beam broadening arising from the quasi-c

33 decreased aortic compliance, increased wave reflection, and impaired direct NO donor and endothelial

34 ding physician leadership, interdisciplinary reflection, and not avoiding end-of-life decisions.

35 mility"-a lifelong process of learning, self-reflection, and self-critique.

36 The anomalous reflection angle covers the range of 10 degrees to 90 de

37 dient, we demonstrated the tunability of the reflection angle from theta(r) to -theta(r) with bias vo

38 It is a great honor to be asked to write a "Reflections" article by one of the true icons of biochem

39 Anomalously specular radar reflections (ASRR) from Titan's tropical region were obs

40 ong different trajectories of total internal reflection at a concave optical interface can interfere

41 iquid column wrapped with air and uses total reflection at the sample-air interface to confine the ex

42 However, refraction and reflections at material interfaces impede photon collect

43 ser heat source (visible range) and multiple reflections at the film surfaces.

44 e we show the presence of two sub-horizontal reflections at ~11 and ~14.5 km below the seafloor over

45 rap for bead injection with attenuated total reflection (ATR) infrared (IR) spectroscopy.

46 A blood test using attenuated total reflection (ATR)-Fourier transform infrared (FTIR) spect

47 Attenuated total reflection (ATR)-FTIR spectroscopic imaging allows probi

48 ime-domain simulation; this slab has a broad reflection band at yellow wavelength with low Fabry-Pero

49 yer placed below the slab destroys the broad reflection band due to evanescent coupling of electromag

50 broadband absorber or with a reconfigurable reflection band throughout the visible.

51 and the buffer layer and maintain the broad reflection band without any unexpected dips.

52 g mechanism below skin depth, where multiple reflection becomes significant, along with the surface r

53 These reflections brought back many memories of events in my e

54 and free gas, indicated by bottom simulating reflections (BSRs) and amplitude anomalies.

55 t beam along the channel length via multiple reflections by patterned metallic surfaces.

56 er front-side illumination, without any anti-reflection coating where the visible cut-on wavelength o

57 motion by monitoring a single parameter, the reflection coefficient amplitude at the input port.

58 o adjust the real and imaginary parts of the reflection coefficient independently.

59 zed cells led to a significant change in the reflection coefficient of S(11) from - 10.15 dB to - 15.

60 frequency, Q factor, radiation pattern, and reflection coefficient S(11) across a range of mechanica

61 the S parameter meter, by means of which the reflection coefficient S(11) in the plane of the lithium

62 r independently engineering transmission and reflection coefficients of flexural waves in both amplit

63 witches as chiral dopants exhibit reversible reflection color tuning spanning the visible and infrare

64 opy in the transmission and attenuated total reflection configuration to investigate the light-induce

65 Using two-dimensional seismic reflection data from eastern Nepal, we present evidence

66 Combining bathymetric and seismic reflection data, together with seismological analyses of

67 xperimentally, by embedding a total-internal-reflection design in a thin-plate waveguide.

68 observation of such bunches favors specular reflection direction when focusing the laser pulse onto

69 de is positioned coplanar above the internal reflection element (IRE) to ensure uniform electrolyte f

70 er close to the surface of the ZnSe internal reflection element (IRE).

71 derivatives were evaluated by total internal reflection ellipsometry.

72 in brain for intentional goal-setting, self-reflection, empathy, and episodic learning and memory.

73 al differences in intelligence and cognitive reflection explain much of moral disagreement.

74 ared wavelengths, doing so in an easy-to-use reflection (far-field) mode.

75 Total internal reflection fluorescence (TIRF) confines fluorescence exc

76 rea detection, typically in a total internal reflection fluorescence (TIRF) format.

77 tin filaments, as revealed by total internal reflection fluorescence (TIRF) imaging and iterative par

78 perometry in conjunction with total internal reflection fluorescence (TIRF) microscopy demonstrates t

79 We further demonstrate that total internal reflection fluorescence (TIRF) microscopy images of subc

80 Total internal reflection fluorescence (TIRF) microscopy suppresses the

81 ltaneous optical trapping and total internal reflection fluorescence (TIRF) microscopy to directly me

82 Here, we use total internal reflection fluorescence (TIRF) microscopy to show that D

83 Using total internal reflection fluorescence (TIRF) microscopy, the fusion of

84 Here, using total internal reflection fluorescence (TIRF) microscopy, we found that

85 ts nucleation properties in a total internal reflection fluorescence (TIRF) microscopy-based real-tim

86 rference in through-objective total internal reflection fluorescence (TIRF) microscopy.

87 he single-molecule level with total internal reflection fluorescence (TIRF) microscopy.

88 merization assays, along with total internal reflection fluorescence (TIRF), confocal, and EM analyse

89 Flow cytometry, total internal reflection fluorescence and confocal microscopy, and wes

90 energy transfer and nanoscale total internal reflection fluorescence colocalization microscopy, we vi

91 Imaging total internal reflection fluorescence correlation spectroscopy (ITIR-F

92 rane trafficking, as shown by total internal reflection fluorescence imaging.

93 a specially built ultraviolet total internal reflection fluorescence microscope, we found that the fl

94 ventional and single-molecule total internal reflection fluorescence microscopy (TIRFm) showed that n

95 Using total internal reflection fluorescence microscopy and density gradient

96 a synergistic combination of total internal reflection fluorescence microscopy and image correlation

97 confirmed by single-platelet total internal reflection fluorescence microscopy imaging.

98 using confocal microscopy and total internal reflection fluorescence microscopy on fixed specimens.

99 Single-molecule total internal reflection fluorescence microscopy showed CaMKII dissoci

100 ts obtained with confocal and total internal reflection fluorescence microscopy suggested that Amot's

101 dated candidates, we utilized total internal reflection fluorescence microscopy to demonstrate dynami

102 at synaptic ribbons, we used total internal reflection fluorescence microscopy to image synaptic ves

103 Here we use total internal reflection fluorescence microscopy to visualize growth o

104 mic domain of FGFR and employ total internal reflection fluorescence microscopy to visualize individu

105 al compartment is recorded by total internal reflection fluorescence microscopy utilizing the generat

106 Total internal reflection fluorescence microscopy was performed on olig

107 Using single molecule total internal reflection fluorescence microscopy we show that Wsp1 syn

108 e used single-molecule TIRFM (total internal reflection fluorescence microscopy) and developed a kine

109 ured illumination microscopy, total internal reflection fluorescence microscopy, and coimmunoprecipit

110 We utilized total internal reflection fluorescence microscopy, bulk actin assays, a

111 Using biochemistry, total internal reflection fluorescence microscopy, electron microscopy

112 econstitution experiments and total internal reflection fluorescence microscopy, we demonstrate that

113 With total internal reflection fluorescence microscopy, we found that secret

114 hotoconvertible technique and total internal reflection fluorescence microscopy, we further demonstra

115 icroscale thermophoresis, and total internal reflection fluorescence microscopy, we identified the N-

116 50% reduction in CG fusion in total internal reflection fluorescence microscopy, which was caused by

117 Total internal reflection fluorescence microscopy-based single molecule

118 hing events in real time with total internal reflection fluorescence microscopy.

119 ifluorescence microscopy, and total internal reflection fluorescence microscopy.

120 munofluorescence; confocal or total internal reflection fluorescence microscopy; and western blotting

121 fluorescence microscopy using total internal reflection fluorescence-ground state depletion and confo

122 l membrane systems by imaging total internal reflection- fluorescence correlation spectroscopy (ITIR-

123 erforming particular optimizations (maximize reflection for a given wavelength, for a broad range of

124 concentration using in-situ Attenuated Total Reflection Fourier Transform Infrared (ATR-FTIR) spectro

125 to surface film composition-attenuated total reflection fourier transform infrared (ATR-FTIR) spectro

126 fully 3D-printed module for attenuated total reflection Fourier transform infrared (ATR-FTIR) spectro

127 Furthermore, we applied Attenuated Total Reflection Fourier Transform Infrared (ATR-FTIR) to dete

128 novel application of micro attenuated total reflection Fourier transform infrared (uATR-FTIR) spectr

129 l emission spectroscopy and attenuated total reflection Fourier transform infrared spectroscopy.

130 Herein, attenuated total reflection Fourier-transform infrared (ATR-FTIR) spectro

131 of their blood plasma using attenuated total reflection Fourier-transform infrared (ATR-FTIR) spectro

132 ntrol group) were submitted Attenuated Total Reflection Fourier-transform infrared (ATR-FTIR) spectro

133 rprint of plasma samples by attenuated total reflection Fourier-transform infrared spectroscopy; deri

134 study, we have assessed an attenuated total reflection-Fourier transform infrared (ATR-FTIR) spectro

135 on, such as wallpaper, or differential light reflection from a three-dimensional shape made of unifor

136 Total internal reflection from air bubble in water is one of the few so

137 ed by directed bioluminescent sources due to reflection from the body surface [5, 6].

138 ce of data and artifacts in AFM-IR analysis; reflection from the buried interface.

139 rayed silicon NWs can be harnessed to remove reflections from dielectric interfaces while affording s

140 Using Fresnel reflections from the sample cell, we could record optica

141 Frustrated total internal reflection (FTIR) imaging was used to perform remote opt

142 lso show that an increased level of specular reflection (gloss) of the leaf background leads to an in

143 is that of a geometrically finite hyperbolic reflection group in one higher dimension.

144 group when compared with the video-assisted reflection group in the delayed assessment (89.45 [19.32

145 wer mean skill scores in the recall-assisted reflection group when compared with the video-assisted r

146 as significantly more in the recall-assisted reflection group when compared with the video-assisted r

147 group when compared with the video-assisted reflection group.

148 video-assisted reflection or recall-assisted reflection group.

149 present the structural transition probed via Reflection High Energy Electron Diffraction (RHEED) for

150 sts as directly observable dark bands in the reflection image.

151 Using high-resolution seismic reflection imaging, we present observations of temporal

152 nhibition, discounting, decision-making, and reflection impulsivity.

153 ent data were available for meta-analysis of reflection impulsivity.

154 ce and facilitating critical questioning and reflection in and on practice.

155 ring and transparent states as well as color reflection in response to an applied increasing or decre

156 Using attenuated total reflection in the terahertz domain, we studied the dynam

157 This review describes our journey and reflections in exploring the visual system.

158 Sharp reflections in the pXRD pattern can be indexed to the al

159 stal microbalance (QCM) and attenuated total reflection infrared (ATR-IR) spectroscopy confirm a high

160 Attenuated total reflection infrared spectroscopy pinpointed that magnesi

161 In this work, an attenuated total reflection infrared spectroscopy technique is developed

162 Being based on optical reflection instead of fluorescence, ECORE offers the fle

163 Overall, reflection interference contrast microscopy analysis of

164 Finally, a reflection is made on the future trends in the research

165 rival times or require well-constrained wave reflections it can be used with many source-receiver geo

166 ctures with a combination of selective light reflection, light propagation, and circular dichroism.

167 mposites is then obtained by calculating the reflection loss at normal incidence.

168 carried out in macroscopic attenuated total reflection (macro ATR) and transmission modes, to determ

169 light in the optical region along with small reflection make these systems very promising for use in

170 interferometric recording of the time-gated reflection matrix, which is a unique matrix characterizi

171 Instead of recall, video-assisted reflection may reduce recall bias and improve skills ret

172 the magnetic excitations and magnetic Bragg reflections, meaning the excitations cannot be described

173 Polarized reflection measurements at different temperatures show a

174 Neutron reflection measurements on artificial membranes, so-call

175 icted optical properties in transmission and reflection measurements.

176 or Epidemiologic Research (SER) membership-a reflection/microcosm of society.

177 -coupled device (EMCCD)-based total internal reflection microscopy (TIRF) imaging.

178 dy, MA-XRPD is used in both transmission and reflection mode for the analysis of three 17th century s

179 pth and sensitivity of both transmission and reflection mode MA-XRPD for various pigments have been m

180 Reflection mode O-PTIR spectra taken from powdered and n

181 icroscope working in a noncontact, far-field reflection mode, offering submicron IR spectroscopy and

182 fluorescent mode or in both fluorescent and reflection mode, respectively.

183 In reflection mode, several sulfate salts, palmierite (K(2)

184 narrowband filters and linear polarizers in reflection mode.

185 eriments are carried out in transmission and reflection-mode for proof of concept.

186 riguing features, such as resilience to back reflection, naturally arise from the spin-wave nonrecipr

187 ehaviors in patients with PS1 mutations is a reflection not just of an increase in the levels of Abet

188 Total internal reflection occurs at the interface of a bubble, where li

189 er a change in the unfolding pathway or as a reflection of a multidimensional energy landscape of pro

190 This urinary AGE is most likely a reflection of AGE accumulation and degradation in tissue

191 efinitive energy algorithm was observed as a reflection of altering joint work strategy in women and

192 As a reflection of both hypoperfusion and tissue damage, the

193 dicates that the heterogeneity is not a mere reflection of different stages in a linear developmental

194 omposites do not heat under RF fields due to reflection of electromagnetic waves, whereas composites

195 h 2 weeks from discharge was determined as a reflection of hospital-acquired COVID-19 infections.

196 Roots were treated with reflection of interproximal papillae, root planing assis

197 kin autofluorescence (SAF) are a noninvasive reflection of long-term AGE accumulation in tissues.

198 Here we demonstrate near-perfect reflection of low-energy photons by embedding a layer of

199 ts indicate that, rather than simply being a reflection of motor output, motor cortical physiology in

200 e due to conduction system degeneration or a reflection of myocardial pathology.

201 cause of PD is related primarily to internal reflection of oblique light rays that strike the square

202 We highlight phenotypic presentation as a reflection of pathogenesis and outline a practical appro

203 l magnification of the penis is not simply a reflection of peripheral change.

204 1)Tl in comparison to (18)F-LMI1195 may be a reflection of physiological sympathetic innervation and

205 erentially in one direction through specular reflection of quasi-ballistic electrons at the nanowire

206 nable negative circular dichroism, selective reflection of right-handed circularly polarized (CP) lig

207 en by snow loss and a consequent decrease in reflection of solar radiation.

208 e role in regulating gene expression or is a reflection of the activity of the regulatory elements of

209 the control of movements may be an implicit reflection of the brain's economic evaluation of the exp

210 f their effects on lifespan is most likely a reflection of the conservation of their functions in you

211 rs whose diastereomeric ratio is an accurate reflection of the enantiopurity of the parent sulfinamid

212 O) coated on the interface of total internal reflection of the EW-CRDS platform, a cavity ring-down t

213 racy impacts network function or is simply a reflection of the fact that, although it is important fo

214 ly, the carrier concentration is used as the reflection of the Fermi level in the band structure.

215 d owes more to taphonomic artifact than true reflection of the group's evolutionary history.

216 uxes in symbiont-depleted tissue promoted by reflection of the incident light from the coral skeleton

217 coupling strength and the directional mirror reflection of the incoming light using an array of quant

218 We find that partial reflection of the incoming wave is the most important me

219 be considered in the context of a historical reflection of the National Heart Institute's landmark st

220 predicted direction also revealed a stronger reflection of the predicted direction in the MEG signal.

221 ape heterogeneity may be (at least partly) a reflection of the rich signaling dynamics regulating the

222 These waves are assumed to be a reflection of the underlying neural activity, but it is

223 important functions in cortical circuitry, a reflection of their cell diversity.

224 duces statistical variability and inaccurate reflection of tumor cell heterogeneity.

225 Cell shape provides both geometry for, and a reflection of, cell function.

226 d intentions via explicit signals and subtle reflections of arousal visible in the face.

227 We investigated the neural reflections of behavioral automation as participants mas

228 The rate of decay of superlattice reflections of the (SnSe(2))(1+gamma)(TiSe(2)) (m)(PbSe)

229 and movement against the applied torque are reflections of the free-energy surface of the systems.

230 These images are tantalizing reflections of visual information in the brain.

231 m direct view, by analysing indirect diffuse reflections off a secondary relay surface.

232 Observations reveal that reflection on both complicated and uncomplicated cases s

233 This review article provides a reflection on how fundamental studies have facilitated t

234 tionally, simulation-based teaching involves reflection on recalled events (recall-assisted reflectio

235 However, in Alzheimer's disease (AD), its reflection on regional neuronal injury in the context of

236 strengthened team morale but also triggered reflection on the entire clinical course.

237 Finally, a personal reflection on the future perspectives and applications w

238 ly, I deal briefly with some experiments and reflections on divided attention, consolidation, and bil

239 Here I present my personal reflections on my adventure with the bioactive sphingoli

240 Wilson Medal and happy to share some reflections on my journey as a cell biologist.

241 Interviews elicited detailed reflections on the contexts, mechanisms and outcomes of

242 of past commentaries, 4 papers also include reflections on the discipline at present and in the futu

243 Finally, we present 3 key reflections on the essentiality of oral health care.

244 through 1 month, possibly indicating further reflection or decision-making on PrEP use.

245 ipants were randomized 1:1 to video-assisted reflection or recall-assisted reflection group.

246 ing seismic monitoring methods based on wave reflection or transmission probe a limited rock volume a

247 e nonresonant probe allows for transmission, reflection, or dual-mode detection (transmission and ref

248 l and time-reversal symmetry, as well as the reflection parity of the static pattern.

249 nt thickness can be interrogated by a single reflection probe placed on a fixed position over the chi

250 The REpeat Chromosomal changes Uncovered by Reflection (RECUR) is an R application for the comparati

251 -depth, as conveyed by shading, specularity, reflection, refraction, or disparity cues in images.

252 that identifying liquid surfaces by specular reflections requires a stringent definition of specular;

253 The reflection resonances with concurrent amplitude reductio

254 When compared with recall, video-assisted reflection resulted in similar improvement in airway ski

255 at when compared with recall, video-assisted reflection results in higher acquisition and retention o

256 mel matrix derivative (EMD) added to papilla reflection/root preparation (PR/RP) could enhance clinic

257 g of the third and sixth order of meridional reflection (S(M3) and S(M6) ) following tetanic contract

258 al challenge of NLOS imaging is that diffuse reflections scatter light in all directions, resulting i

259 We acquired a ~9-km long, high-resolution reflection seismic profile in the Centennial Valley, Mon

260 Simulated reflection spectra are highly sensitive to minute detail

261 , we provide our algorithm with the measured reflection spectra of the modulator at different gate vo

262 cular pigment (MP) levels were measured with reflection spectroscopy and autofluorescence imaging met

263 SC levels were measured by reflection spectroscopy.

264 The reflection spectrum of the device exhibits a narrow spec

265 The measured reflection spectrum of the proposed device matches well

266 ed on a fixed position over the chip and the reflection spectrum recorded is de-convoluted to the spe

267 on-Hermitian parity-time [Formula: see text] reflection symmetric Hamiltonians, exhibit a transition

268 to stringent requirements of anti-commuting reflection symmetries, it is challenging to achieve high

269 cipants (N = 43) completed a self- and other-reflection task for 16 targets: the self, five close oth

270 What do these reflections tell us?

271 s small-angle neutron scattering and neutron reflection, the level of deuteration of a sample can be

272 Coherent reflection theory indicates that SFOAEs arise mostly fro

273 F, and the data are consistent with coherent reflection theory.

274 nsition from broadband absorption to tunable reflection through deterministic control of the coupling

275 is found that the anomalous transmission and reflection through higher order diffraction can be compl

276 ces that allow simultaneous control over the reflection (through the 3D photonic bandgap) and the tra

277 ion of ion packets within the ELIT, multiple reflection-time-of-flight (MR-TOF) mass spectra are show

278 Total internal reflection (TIR) infrared spectroscopy is a convenient m

279 e context of freezing-namely, total-internal reflection (TIR)-we elucidate the freezing kinetics duri

280 Using mirror reflections to create a virtual environment free of perc

281 This model is trained to minimize the reflection (to smaller than ~ -20 dB) while achieving ma

282 aphene together with its microwave response (reflection, transmission and absorption).

283 We achieved dynamic reflection tuning across the visible spectrum through in

284 nts a new, ultra-low-loss and phase-tunable, reflection type metasurface design, which outperforms pr

285 The theory of multiple reflections was employed to further verify the performan

286 of {h + 1/2, k + 1/2, l + 1/2} superlattice reflections was observed for the first time based on sin

287 arized fluorescence as well as the selective reflection wavelength of the induced cholesteric phases

288 ng liberals, individuals higher in cognitive reflection were better able to discern between low- and

289 In contrast, if these reflections were frozen melt sills, they would imply the

290 on, or dual-mode detection (transmission and reflection), where the dual-mode results in a 2 signal e

291 Perhaps my reflections will help an aspiring scientist see how fulf

292 e impedance mismatches to realize total side reflection with negligible transmission and absorption.

293 The observation of only (00 l) reflections without any secondary peaks in the XRD patte

294 Total reflection X-ray fluorescence (TXRF) spectroscopy was us

295 ental analysis of microgreens based on total reflection X-ray fluorescence (TXRF) spectroscopy, witho

296 near infrared spectroscopy (NIRS) and total reflection X-ray fluorescence (TXRF).

297 dy, the analytical capabilities of the total-reflection X-ray fluorescence method (TXRF) were conside

298 e atomic force microscopy (AFM), X-ray Bragg reflections, X-ray absorption spectra (XAS) of the Pd L-

299 Therefore, total-reflection XRF was used to determine total As within bot

300 based on a laser-produced plasma source and reflection zone plates with a resolving power of 1000 an