ライフサイエンスコーパス: interferometry

1 ctroscopy, x-ray interferometry, and neutron interferometry).

2 regarded as a new type of quantum-dot-based interferometry.

3 ontrolled geometric Landau-Zener-Stuckelberg interferometry.

4 and Vn was 2.2 muM, as revealed by Biolayer interferometry.

5 and human receptor analogues using biolayer interferometry.

6 sted neutron beams are analysed with neutron interferometry.

7 us was achieved without the use of step-scan interferometry.

8 using surface plasmon resonance and bilayer interferometry.

9 as determined from time delays and infrared interferometry.

10 etric and when it is detected through Ramsey interferometry.

11 nd that demonstrate the sensitivity of X-ray interferometry.

12 rmined by noncontact partial coherence laser interferometry.

13 antum information processing and matter-wave interferometry.

14 ctures probed with ultrafast surface plasmon interferometry.

15 g to receptor analogs using surface biolayer interferometry.

16 dius (CR) were measured by partial coherence interferometry.

17 al surface were measured using laser speckle interferometry.

18 the scleral surface were measured by speckle interferometry.

19 aligned with respect to the substrate using interferometry.

20 egic photorefractions, and partial coherence interferometry.

21 e scleral surface were measured with speckle interferometry.

22 ements of changes in fluorophore position by interferometry.

23 er disks that have been recently resolved by interferometry.

24 ly or electrically and detected optically by interferometry.

25 G, using a gravity gradiometer based on atom interferometry.

26 k-focal-plane, low-power (nontrapping) laser interferometry.

27 ntial applications in force sensing and atom interferometry.

28 with values measured in the same eyes using interferometry.

29 d on surface plasmon resonance and bio-layer interferometry.

30 nd enable improved signal-to-noise ratios in interferometry.

31 eiades, using long-baseline optical/infrared interferometry.

32 ents in technology such as partial coherence interferometry.

33 monolayer using angle-resolved low-coherence interferometry.

34 sity profile determined previously via x-ray interferometry.

35 nconjugated control demonstrated by Biolayer Interferometry.

36 ra that are currently analysed with spectral interferometry.

37 chromatography and characterized by biolayer interferometry.

38 ethod combined with optical frequency domain interferometry.

39 be directly measurable by very long baseline interferometry.

40 try, microscale thermophoresis and bio-layer interferometry.

41 zeta Andromedae using long-baseline infrared interferometry.

42 use of an angle-multiplexed spatial-spectral interferometry.

43 By using laser interferometry [10], we show that the nonlinear componen

44 ,8) and pathfinding techniques for atom-wave interferometry(9-12).

45 g co-registered angle-resolved low-coherence interferometry (a/LCI) and optical coherence tomography

46 ing study using angle-resolved low coherence interferometry (a/LCI) to assess nuclear morphology and

47 Angle-resolved low coherence interferometry (a/LCI) uses in vivo depth-resolved nucle

48 Angle-resolved low-coherence interferometry (a/LCI), a novel light scattering techniq

49 ical technique, angle-resolved low-coherence interferometry (a/LCI).

50 alysis of mutant DNA sequences with biolayer interferometry, allowed the independent quantification o

51 Biolayer interferometry analysis showed that the mutation in the

52 Using biolayer interferometry and biochemical analyses of purified muta

53 We combine matter-wave interferometry and cavity optomechanics to propose a coh

54 members of the FZD family by using bio-layer interferometry and characterized their functional select

55 -risk patients may be facilitated by corneal interferometry and corneal hysteresis measurements.

56 Combining the advantages of heterodyne interferometry and dark-field microscopy, this label-fre

57 Together, the interferometry and dextran penetration data show that or

58 highly precise, noncontact partial coherence interferometry and Goldmann applanation tonometry, respe

59 We use satellite radar interferometry and GPS data to show that between 2001 an

60 OCT combines the principles of low-coherence interferometry and heterodyne dynamic light scattering.

61 surface changes were measured by white light interferometry and image analysis.

62 osensor is based on the spectral-correlation interferometry and image processing of a microarray glas

63 lline hexagonal epsilon-NbN using ultrasonic interferometry and in situ X-ray diffraction, complement

64 Using biolayer interferometry and intrinsic tryptophan fluorescence we

65 nces using liposome binding assays, biolayer interferometry and isothermal titration calorimetry.

66 Finally, using backscattering interferometry and lipoparticles containing only the CXC

67 s is now possible by combining ambient noise interferometry and multichannel analysis of surface wave

68 Moreover, biolayer interferometry and NMR indicated a direct interaction be

69 he traps simultaneously via back focal-plane interferometry and only a single quadrant photodiode det

70 nes performing better than partial coherence interferometry and optical low-coherence reflectometry d

71 er-resolution imaging study using modulation interferometry and phase-sensitive detection that achiev

72 Here, we used biolayer interferometry and pulldown assays to identify regions o

73 the two lasers is demonstrated via spectral interferometry and second-order field cross-correlation.

74 The high sensitivity of back-scattering interferometry and small volumes of microfluidics allowe

75 ractions were confirmed by dual polarization interferometry and visualized by rotary shadow electron

76 ized single cell B cell sequencing, biolayer interferometry and X-ray crystallography to trace mutati

77 maging (modified Quadriwave lateral shearing interferometry) and can be directly implemented using an

78 thcare clinic with gonioscopy, partial laser interferometry, and anterior segment optical coherence t

79 by scanning electron microscopy and optical interferometry, and chemical assessment by x-ray photoel

80 ination of fluorescence anisotropy, biolayer interferometry, and double electron-electron resonance s

81 liquid chromatography, bioanalyzer, biolayer interferometry, and flow cytometry in EGFR-positive DLD-

82 Here we used NMR spectroscopy, biolayer interferometry, and fluorescence polarization to charact

83 combined an ensemble of satellite altimetry, interferometry, and gravimetry data sets using common ge

84 ical absorption/emission spectroscopy, x-ray interferometry, and neutron interferometry).

85 eat transport calculations, back-focal-plane interferometry, and optical images reveal that the bismu

86 Using isothermal calorimetry, biolayer interferometry, and peptide array screening, we examined

87 oteins, adhesion and fusion assays, biolayer interferometry, and peptide libraries, we show that SIRP

88 rystals, turbidity, mechanical displacement, interferometry, and solvatochromism.

89 al length with non-contact partial coherence interferometry, and spectral-domain optical coherence to

90 Using photodiode micrometry, laser interferometry, and stroboscopic video microscopy, we ha

91 yses employing filtration, dual polarization interferometry, and tryptophan fluorescence demonstrated

92 We produced elevation models using radar interferometry applied to bistatic data gathered between

93 and microscopic elasticity measured by X-ray interferometry are in striking agreement with values der

94 tandard techniques, such as back-focal-plane interferometry, are difficult to employ in this geometry

95 ing rate up to a factor two, and exemplifies interferometry as a powerful tool to quantify the impact

96 Here, we investigate live cell interferometry as an approach to quantify the biomass an

97 llimeter-wave VLBI (very-long-baseline radio interferometry) as well as multiwaveband observations of

98 Biolayer interferometry assay revealed that recombinant maspin bi

99 two-hybrid assay and in vitro in a bio-layer interferometry assay.

100 Here, using the nanodisc system and biolayer interferometry assays, we find that HC/DC, C, and G, but

101 lyses, NAD synthetase activity, and biolayer interferometry assays, we show that PII and NadE(Gln) ph

102 mer, boxB, using both gel shift and biolayer interferometry assays.

103 We report biolayer interferometry based in-vitro selection technique (BLI-S

104 Using bio-layer interferometry-based binding assays, we found that this

105 lometry was measured with broad-band optical interferometry before and after CO2 laser irradiation.

106 asured with submicrometer resolution optical interferometry, before and after uniform excimer ablatio

107 This technique was used to realize interferometry between two trapped Bose-Einstein condens

108 affinity of c-Raf-RBD(RKY) using a bio-layer interferometry (BLI) assay, and found that this new vari

109 ISA), affinity chromatography, and bio-layer interferometry (BLI) demonstrated that S. mutans YlxM in

110 Biolayer interferometry (BLI) is a well-established optical label

111 alpha(1D)-AR complex architecture, biolayer interferometry (BLI) revealed the alpha(1D)-AR C-termina

112 ), surface plasmon resonance (SPR), biolayer interferometry (BLI), and backscattering interferometry

113 leotide affinity was measured with bio-layer interferometry (BLI), which yielded kinetics data that f

114 molecules are discussed, namely Mach-Zehnder interferometry, Breit-Wigner resonances and Fano resonan

115 Here we show that backscattering interferometry (BSI) can accurately quantify ligand-rece

116 Here, backscattering interferometry (BSI) has been shown to be a convenient a

117 Backscattering interferometry (BSI) has been used to successfully monit

118 nd quantitative comparison of backscattering interferometry (BSI) to fluorescence sensing by ELISA, w

119 Here we describe the use of backscattering interferometry (BSI) to quantify the binding affinity of

120 Here we employed backscattering interferometry (BSI), a free-solution label-free method

121 yer interferometry (BLI), and backscattering interferometry (BSI), which can facilitate assays withou

122 (AChE) have been screened by back-scattering interferometry (BSI).

123 n within picoliter volumes using backscatter interferometry (BSI).

124 ctive index (RI) detection using backscatter interferometry (BSI).

125 ctive index (RI) sensing with backscattering interferometry (BSI).

126 mers seek to image jet formation using radio interferometry but still suffer from insufficient angula

127 It has recently been shown that matter-wave interferometry can be used to imprint a periodic nanostr

128 X-ray interferometry can non-invasively detect refractive inde

129 Looking forward, molecular-level interferometry can provide a general tool for characteri

130 sed binding assay was combined with biolayer interferometry competition analysis and a FP competition

131 Target identification through biolayer interferometry confirmed binding of all hit compounds to

132 This work describes an interferometry data analysis method for determining the

133 Biolayer interferometry data demonstrate that peptide VVNGIPTR (p

134 By analyzing interferometry data taken at many intersurface separatio

135 thod described is applied to the analysis of interferometry data taken with a surface force apparatus

136 ilometers per year, based on satellite radar interferometry data.

137 Biolayer interferometry demonstrates that the binding was tempera

138 ce pockets using optical microscopy and also interferometry demonstrates that these sharply acute fea

139 asured and compared with a partial coherence interferometry device (IOLMaster; Carl Zeiss Meditec, In

140 sed on Synthetic Aperture Radar differential interferometry (DInSAR) to study the slope adjacent to t

141 tigated the application of dual polarization interferometry (DPI) as a method for the real-time chara

142 The use of dual polarization interferometry (DPI) as a tool for probing the different

143 al evanescent technique of dual polarization interferometry (DPI) implemented via a dual slab wavegui

144 d (2)H solid-state NMR and dual polarization interferometry (DPI) were used to analyze the membrane i

145 We used a combination of dual polarisation interferometry (DPI), surface plasmon resonance spectros

146 obulins was assessed using Dual Polarisation Interferometry (DPI).

147 V404 Cygni, detected with very-long-baseline interferometry during the peak of its 2015 outburst.

148 Examples are fibre-based interferometry (e.g., for precise measurement and sensin

149 Optical fiber extrinsic Fabry-Perot interferometry (EFPI) was investigated as a noncontact t

150 galactic radio sources by very-long-baseline interferometry enable us to study the evolution of these

151 eutron reflectivity experiments, enhanced by interferometry enabled by the multilayer substrate, were

152 Combining X-ray interferometry ensemble data with molecular dynamics sim

153 es, measured up to 12.3 GPa using ultrasonic interferometry, exhibit velocity minima at 1.8 GPa for P

154 will make it a suitable candidate for vortex interferometry experiments demonstrating non-abelian sta

155 Our X-ray interferometry experiments reveal an increasing bend ang

156 Additional X-ray interferometry experiments revealed perturbations to the

157 lized e/4 quasiparticles shows that proposed interferometry experiments to test statistics and comput

158 In biolayer interferometry experiments, the optimized design binds I

159 esults provided by the time-resolved neutron interferometry experiments.

160 obilized myosin was monitored using biolayer interferometry, factors Xa and Va each showed favorable

161 itative phase method that uses low-coherence interferometry for label-free 3D imaging in scattering t

162 Here, we develop live cell interferometry for rapid, real-time quantification of ce

163 we describe a novel application of biolayer interferometry for the rapid detection of antigen-specif

164 These mutants were characterized by biolayer interferometry for their pH-dependent binding to a colla

165 eezing have been exploited in the context of interferometry, frequency measurements, lithography and

166 hermodynamic protein binding constants using interferometry from a porous Si Fabry-Perot layer is pre

167 onagraph internal to a telescope and nulling interferometry from formation-flying telescopes--both re

168 ng after a blink was measured using spectral interferometry from the right eyes of 37 subjects.

169 Satellite System (GNSS) and satellite radar interferometry from two decades of observations.

170 Matter-wave interferometry has become an essential tool in studies o

171 Optical interferometry has been very effective in reading out th

172 Optical interferometry has empowered an impressive variety of bi

173 This interferometry has potential applications in precise mea

174 btend only a few nano-radians, near-infrared interferometry has recently enabled the spatial resoluti

175 However, matter-wave interferometry has remained an outstanding challenge for

176 Small-angle X-ray scattering interferometry has the potential to overcome this limita

177 optical sensing technique, dual polarization interferometry, has been employed for the detailed study

178 istribution in HSF1 clusters using live cell interferometry images.

179 e nanoindentation method known as mechanical interferometry imaging (MII) with <1-nm displacement pre

180 Our biolayer interferometry immunosorbent assay (BLI-ISA) utilizes si

181 tions were investigated with back-scattering interferometry in a simple optical train composed of a h

182 We demonstrate Mach-Zehnder-type interferometry in a superconducting flux qubit.

183 experimental techniques by using ultrasonic interferometry in conjunction with synchrotron x radiati

184 Here we show how backscattering interferometry in rectangular channels (BIRC) facilitate

185 Using dual-beam interferometry in the bullfrog's sacculus, we found that

186 We used laser interferometry in vitro and optical coherence tomography

187 racteristics and advantages of hyperspectral interferometry including the increased robustness agains

188 Here we use radar interferometry (InSAR) and a simple 1D hydrological mode

189 displacements produced with conventional SAR interferometry (InSAR) and multiple-aperture SAR interfe

190 estern Tibetan plateau using satellite radar interferometry (InSAR) indicate that slip rates on the K

191 X-ray grating interferometry is a coherent imaging technique that bear

192 Back-focal-plane laser interferometry is a promising technique for nanoscale th

193 Dynamic thin film interferometry is a technique used to non-invasively cha

194 ata analysis and modeling via simulations of interferometry is described in detail.

195 fluctuation spectroscopy technique based on interferometry is described.

196 scope with a lamp and a camera - no laser or interferometry is needed.

197 Interferometry is one of the central organizing principl

198 Key to interferometry is the concept of optical delay, which fa

199 +/- 1.0 nM, as determined by backscattering interferometry; KJ-Pyr-9 also interferes with MYC-MAX co

200 rferometry (InSAR) and multiple-aperture SAR interferometry (MAI) techniques were integrated to retri

201 cal monitoring of neural activity using fast interferometry may be applicable not only to optoretinog

202 ELISA and bio-layer interferometry measurements demonstrated that mAbs whose

203 These interferometry measurements show that the bilayers are c

204 Bio-layer interferometry measurements were also carried out to det

205 on was then instilled; 15 minutes later, two interferometry measurements were performed similarly.

206 ulin (CaM) binding as evidenced by bio-layer interferometry measurements.

207 model is confirmed, very-long-baseline radio interferometry observations can then be used to probe th

208 e deformation in Yellowstone, based on radar interferometry observations from the European Space Agen

209 lated to the Chaiten eruption based on radar interferometry observations from the Japan Aerospace Exp

210 Using satellite radar interferometry observations of Greenland, we detected wi

211 We report radio interferometry observations, at a wavelength of 1.3 mill

212 We present very-long-baseline interferometry observations, performed 207.4 days after

213 ith results of previous spectrally dispersed interferometry observations.

214 spin, and perform acoustically driven Ramsey interferometry of a single spin.

215 study shows measurements using X-ray Talbot interferometry of three-dimensional gradient index profi

216 studies demonstrate the capacity to perform interferometry on 5/2 excitations and reveal properties

217 In coda wave interferometry, one records multiply scattered waves at

218 A variety of tear film (e.g., interferometry, osmolality, phenol red thread, meibograp

219 The authors applied partial coherence interferometry (PCI) to estimate the thickness of the hu

220 M the following day, using partial coherence interferometry (PCI), a highly precise, noncontact metho

221 g technology combined with partial coherence interferometry (Pentacam AXL) and 1 using swept-source o

222 counting experiments, such as the intensity interferometry performed by Hanbury Brown and Twiss to m

223 Matter-wave interferometry performed with massive objects elucidates

224 rsal solute quantification is possible using interferometry performed within micrometer-sized channel

225 The generalization of optical Mach-Zehnder interferometry, performed in qubit phase space, provides

226 The very-long-baseline interferometry properties of the superluminal features i

227 Overall, live cell interferometry provides a conceptual advance for assessi

228 ed at 90 degrees C in situ using phase-shift interferometry (PSI) and ex situ using atomic force micr

229 urement within a few seconds, phase-shifting interferometry (PSI) successfully scans ~1 mm(2) of tran

230 assumption is that devices based on optical interferometry require coherent light to generate a prec

231 essed with laser Doppler flowmetry and laser interferometry, respectively.

232 Results obtained with satellite radar interferometry reveal that bottom melt rates experienced

233 ng (PTB) domain deletion mutants by biolayer interferometry, revealing the role of SH2 and the PTB do

234 ements via dynamic photoelasticity and laser interferometry reveals the rupture mode type, the exact

235 both differential reflectivity (SEED-R) and interferometry (SEED-I).

236 Modulation interferometry sets the stage for single-molecule studie

237 Satellite altimetry and interferometry show that the grounded PIG thinned by up

238 Results: Flow cytometry and biolayer interferometry showed a trend toward decreasing EGFR aff

239 As biolayer interferometry studies indicate that IhtA interacts dire

240 Here we report on interferometry studies of Josephson junctions and superc

241 Biolayer interferometry studies showed that unphosphorylated JNK1

242 cytosolic fractions and to confirm biolayer interferometry studies.

243 , to the cellular receptor CD11b by biolayer interferometry, suggesting that in common with other mem

244 omes, we demonstrate a sensitivity in Ramsey interferometry surpassing the standard measurement limit

245 rather than the beam of a broadband optical interferometry system.

246 tion, geo-positioning and very-long-baseline interferometry systems.

247 ion ultrasound biometry or partial coherence interferometry), target refraction, and pupil size had b

248 Here, we apply an X-ray interferometry technique to probe the solution structure

249 d photon pairs by an inherently phase-stable interferometry technique, facilitating uninterrupted lon

250 rmined by making velocity measurements using interferometry techniques at the rear free surface of th

251 human RBCs by using dynamic full-field laser interferometry techniques.

252 ave velocity information using ambient noise interferometry techniques; the resulting V(S) profiles w

253 with single-photon, simultaneous multiphase interferometry that provides sub-20-nm 3D protein locali

254 Here we study by in-situ interferometry the drying of agarose gels of various com

255 ar LS900; Haag Streit) and partial coherence interferometry (the IOLMaster optical biometer; Carl Zei

256 In view of the application to atom interferometry, the condition to split the cloud into ma

257 With radar interferometry, the next-generation Surface Water and Oc

258 In Talbot-Lau interferometry, the sample position yielding the highest

259 Based on seismic interferometry, the virtual source (VS) method is able t

260 que based on cross-polarized spectral-domain interferometry to achieve ultra-high dynamic range elect

261 ntly, there have been clinical studies using interferometry to assess lipid layer thickness (LLT).

262 used in place of the previous method of Gouy interferometry to avoid perturbations to sloution struct

263 Psychophysical measurements employing laser interferometry to bypass the eye's optics suggest that h

264 that uses separable states and basic photon interferometry to demonstrate the locally-correlated qua

265 s Octet optical biosensor harnesses biolayer interferometry to detect and quantify molecular interact

266 mbined with Compton scattering, and velocity interferometry to determine shock pressure and mass dens

267 correlation spectroscopy (FCS), and biolayer interferometry to develop a systematic understanding of

268 LIM exploits a special case of low-coherence interferometry to extract phase information from the spe

269 Using homodyne matter-wave interferometry to measure first-order correlation functi

270 ovel biophysical approach based on bio-layer interferometry to measure the balance of the activities

271 hilla's cochlea and then used scanning laser interferometry to measure vibrations of the basilar memb

272 Here we use light-pulse atom interferometry to realize quantum interference with wave

273 n and damping of PhPs, revealed by polariton interferometry using scattering-type scanning near-field

274 s cluster that uses very long baseline radio interferometry (VLBI).

275 odes (UMEs) by white light vertical scanning interferometry (VSI).

276 Bio-layer interferometry was used to identify and confirm inhibito

277 Spectral interferometry was used to measure the thinning rate of

278 Using optical interferometry we imaged red blood cell (RBC) topography

279 g analysis, GFP reporter assay, and biolayer interferometry we observed an N protein-panhandle intera

280 nsfer and optical standing wave fluorescence interferometry, we characterize the nanometer-scale topo

281 Using optical long-baseline interferometry, we constructed a near-infrared image of

282 Using dual-polarization interferometry, we demonstrate a strong relationship bet

283 Using Ramsey interferometry, we directly measure a spin coherence tim

284 Using biolayer interferometry, we found that the association rate of Pi

285 Using the method of back-scattering interferometry, we have measured the binding of various

286 ay, site-directed mutagenesis, and bio-layer interferometry, we identified several conserved tryptoph

287 Using plasmon interferometry, we investigated losses in graphene by ex

288 nalytical ultracentrifugation, and bio-layer interferometry, we present novel structural and function

289 tomic force microscopy and vertical scanning interferometry, we quantify the difference in reaction r

290 Using Ramsey interferometry, we studied coherent evolution of the res

291 More generally, X-ray interferometry will provide powerful benchmarks for test

292 (2) and rotation(3)-are based on matter-wave interferometry with free-falling atomic clouds.

293 ensitive motion detection via scanning laser interferometry with high spectral and spatial resolution

294 lls, and the undesired dephasing may prevent interferometry with massive objects.

295 Refractive indices were measured by interferometry within intact GVs isolated in oil.

296 In this work, we demonstrate white-light interferometry (WLI) as a practical tool for accelerated

297 ate with HIV-1 TAR RNA that X-ray scattering interferometry (XSI) can be used to determine RNA confor

298 X-ray scattering interferometry (XSI) is based on site-specifically label

299 used an emerging technique, X-ray scattering interferometry (XSI), to directly probe the conformation

300 day timescales, and very long baseline radio interferometry yields an angular size of less than 1.7 m