ライフサイエンスコーパス: detector

1 ISPR-Cas12a- and aTF-mediated small molecule detector).

2 a standard variable wavelength capillary LC detector.

3 ctric quartz crystal (MSPQC) was utilized as detector.

4 spectra recorded in each pixel of an imaging detector.

5 employing digital image and a smartphone as detector.

6 gle Ba(2+) ions in a high-pressure xenon gas detector.

7 and an energy discriminating photon counting detector.

8 omatograph equipped with an electron capture detector.

9 uting their arrival time distribution at the detector.

10 when the focal point aligns with an on-chip detector.

11 3 (YOLOv3-tiny) was evaluated as a potential detector.

12 ion under study with a high-purity germanium detector.

13 ine through comparison to a flame ionization detector.

14 gas fluids when they are monitored by a well detector.

15 herently limited by the heat capacity of the detector.

16 be altered on transfer from solution to the detector.

17 ngle-pixel fiber-coupled photoconductive THz detector.

18 ch pixel within the microchannel plate image detector.

19 cs post sample using the Pixirad-1/Pixie-III detector.

20 arried out by HPLC coupled to a fluorescence detector.

21 struction of direct-conversion semiconductor detectors.

22 lleted devices and commercial flexible X-ray detectors.

23 f star materials for solar cells, lasers and detectors.

24 of magnitude, comparable to photomultiplier detectors.

25 hem competitive with or superior to existing detectors.

26 asing interest in the miniaturization of NMR detectors.

27 ing angle-sensing, long-wave infrared (LWIR) detectors.

28 is not typically provided using single-point detectors.

29 3)He counters by semiconductor-based neutron detectors.

30 ent with a class of rapid online intelligent detectors.

31 We identified LC12 and LC15 as feature detectors.

32 y is also important in such highly-sensitive detectors.

33 mal emitters, sensors, active IR filters and detectors.

34 t frequencies relevant to gravitational-wave detectors.

35 both cases, they act as sensitive red light detectors.

36 suggesting they are not simply warm and cool detectors.

37 sible using cardiac cameras with solid-state detectors.

38 ing velocity estimation in downstream motion detectors.

39 of the front-end electronics of NMR and ESR detectors.

40 M images using conventional disk and annular detectors.

41 the-art graphene and commercial mid-infrared detectors.

42 n-star merger GW170817 by gravitational-wave detectors(10)-was the first kilonova for which detailed

43 ld has given rise to single-photon microwave detectors(7-9) and a quantum computer that is superior t

44 bodies, solid affinity matrices, specialized detectors, a customized apparatus, controlled environmen

45 Custom-built, low-cost aerosol black carbon detectors (ABCDs) provided 100 days of continuous measur

46 ected light to a charge-coupled device (CCD) detector after digesting of cytochrome c by immobilized

47 tional pipeline (Automated Isoform Diversity Detector, AIDD) that contains open source tools for vari

48 ontext of species biology, the Dynamic Shift Detector algorithm can aid management decisions and iden

49 e deep imaging via emission recovery (DIVER) detector allows deep, label-free and high-sensitivity im

50 SPECT using new detectors allows the quantification of myocardial blood

51 be explored as pre-morbid AD-risk population detector and a system for hypothesis-free drug screens a

52 A combination of Canny Edge Detector and Angiogenesis Analyzer plug-ins in ImageJ we

53 by a gas chromatography-thermal conductivity detector and ion chromatography, respectively.

54 NGD is a concentration-sensitive detector and its sensitivity is analyte-dependent based

55 in nutrients in connection to enzymatic flow detector and rapid voltammetric scanning, respectively.

56 rapid readout solid state (SS) spectrometer detectors and a dual channel optical layout to acquire C

57 le their integration into devices, including detectors and actuators.

58 SerialEM controls microscopes and detectors and can trigger automated tasks at multiple po

59 Automated signal detectors and classifiers are needed to identify events

60 non-photovoltaic applications such as X-ray detectors and image sensing devices in industrialization

61 -mm crystals), high sensitivity (20-mm-thick detectors and intercrystal Compton scatter recovery), go

62 rocessed solar cells, light-emitting diodes, detectors and lasers(8-15).

63 k for the function and modulation of feature detectors and new insights into the underlying neuronal

64 hways, and conducting experiments with human detectors and optical states with nonseparable modes.

65 ong coupling, as well as a path to efficient detectors and sensors operating in this long-wavelength

66 ory neurons were thought to be the exclusive detectors and transmitters of environmental stimuli.

67 ation-exchange columns (RP/IEX-HPLC), UV/vis detector, and a Rheodyne valve were installed between th

68 f scanners with tin filters, high-resolution detectors, and iterative reconstruction allows to obtain

69 planar spiral microcoils of the NMR and ESR detectors are concentric and interrogate the same sample

70 Highly efficient neutron detectors are critical in many sectors, including nation

71 Sensitive microwave detectors are essential in radioastronomy(1), dark-matte

72 ght, yet to date, most time-domain terahertz detectors are sensitive to just one polarization compone

73 se Liquid argon (LAr) and liquid Xenon (LXe) detectors are shifted to higher wavelengths resulting in

74 the phase grating and the other close to the detector, are numerically generated and are used as the

75 It requires a finite sample volume, a finite detector area, and a finite detection time for measuring

76 platform consisting of a narrowband infrared detector array as read-out.

77 ing in nonuniform performance throughout the detector array due to suboptimal intercrystal light shar

78 By simulating an elementary motion detector array, we show that head movements shift the ef

79 More importantly, the flexible detector arrays exhibit uniform photoresponse distributi

80 nation to achieve imaging without the use of detector arrays.

81 validate an optimized method, based on multi-detector asymmetrical-flow field flow fractionation (MD-

82 Using a single photon-counting detector at light power levels that are a billion times

83 -throughput method can be adapted to any gas detector at low cost, making it a convenient tool to bet

84 nic metamaterial absorbers with pyroelectric detectors at the pixel level, the detectors exhibit spec

85 ffluent is then immediately transferred to a detector (atmospheric pressure chemical ionization mass

86 We find that X-ray detectors based on PSCs exhibit high sensitivity of 1652

87 could provide the next generation of neutron detectors because their advantages could make them compe

88 le frequencies simultaneously using a single detector by means of demodulation to further speed up da

89 erformance of the SiPM as a highly sensitive detector by measuring enzyme activity in single cells.

90 apacitively coupled conductivity contactless detector (C(4)D) along the length of the capillary.

91 ently developed low-cost and handheld breath detector can serve as a noninvasive and rapid diagnostic

92 pact high-vacuum-compatible version of these detectors can be integrated into a focused ion beam (FIB

93 We demonstrate that the MOF-based flexible detectors can be operated at multiple bending angles wit

94 These learned lower-layer feature detectors can be used to train higher-layer weights in a

95 between the nuclear spins and the inductive detector, can overcome the limits of frequency resolutio

96 The detector combines a separation column and a micromachine

97 women) with positive thromboembolic multiple detector computed tomography of the thorax, performed on

98 Materials and Methods The dual-layer detector consists of an x-ray flat panel detector placed

99 eak point sets selected by the Dynamic Shift Detector contained the true simulated breaks with 70-100

100 Using active micropost array detectors containing magnetic actuators, we have charact

101 sensitivity can be tuned through temperature detector control.

102 s for dark matter and indicate that geologic detectors (craters in peat bogs) and space-based detecto

103 as imperfect overlap of detection volumes or detector cross talk.

104 ors resulting from chromatic aberrations and detector cross talk.

105 atients were included who underwent spectral-detector CT (SDCT) with additional MAR-reconstructions d

106 concentrations) was scanned using a spectral detector CT (SDCT).

107 radiographs obtained with energy-integrating detector CT and a single localizer radiograph obtained w

108 ferent tube voltages from energy-integrating detector CT and a single localizer radiograph with diffe

109 ed from -0.6% to 0.1% for energy-integrating detector CT and from -0.1% to 0.6% for photon-counting d

110 (DXA) scanner, a clinical energy-integrating detector CT scanner, and a prototype photon-counting det

111 CT scanner, and a prototype photon-counting detector CT scanner.

112 radiograph was obtained with photon-counting detector CT using different energy thresholds.

113 3.5-11.5 cGy . cm(2) for energy-integrating detector CT, and 7.2-11.2 cGy . cm(2) for photon-countin

114 , from -2.3% to -1.7% for energy-integrating detector CT, and from -1.6% to 1.6% for photon-counting

115 ltages were obtained with energy-integrating detector CT, and one localizer radiograph was obtained w

116 and 7.2-11.2 cGy . cm(2) for photon-counting detector CT, depending on tube voltage and energy thresh

117 T and from -0.1% to 0.6% for photon-counting detector CT, with no significant differences between CT

118 , and from -1.6% to 1.6% for photon-counting detector CT.

119 erent energy thresholds from photon-counting detector CT.

120 zer radiograph obtained with photon-counting detector CT.

121 contrast (VNC) images acquired with spectral-detector-CT (SDCT).

122 method coupling diode-array and fluorescence detectors (DAD and FLD, respectively) has been developed

123 Based on two-source method, detector deadtime is calculated for a wide range of oper

124 onship between the operating voltage and the detector deadtime.

125 This new generation of hybrid detectors demonstrates low dark current under electric f

126 The infrared detector design has a predicted maximum detectivity D* =

127 Rut) adenylate cyclase acts as a coincidence detector during associative conditioning to integrate ca

128 The use of an energy-dispersive 2D detector enables the simultaneous acquiring of XRF-lines

129 dispersive pn-charge-coupled-device (pnCCD) detector, enabling high energy resolution detection of X

130 The flexible detectors exhibit efficient X-ray-to-electric current co

131 roelectric detectors at the pixel level, the detectors exhibit spectrally tunable and narrowband phot

132 d to the EJ-309 detector, the stilbene-based detector exhibits a lower identification error, on avera

133 A number of TlBr detectors fabricated by this technique have demonstrated

134 This simple-in-use detector features high diagnostic capability for accurat

135 ar to those obtained with a flame ionization detector (FID).

136 ss spectrometer (qMS) and a flame ionization detector (FID).

137 a continuous flow system with a fluorescence detector (FLD), while NH(4)(+) bound to aerosol particle

138 n-dependent manner, serving as a coincidence detector for associative learning and likely representin

139 croring resonators arrays as a biocompatible detector for capillary electrophoresis.

140 c microring resonator arrays as a postcolumn detector for capillary electrophoresis.

141 gaseous atmospheres, especially when used as detector for FIA in gaseous streams.

142 These features make it an ideal detector for hyphenated techniques.

143 solid-state avalanche photodiode (APD)-based detector for real-time, high-sensitivity beta particle d

144 al superior olive, an ultra-fast coincidence detector for sound source localization, acquire their sp

145 erves as a nondestructive and cost-effective detector for the real-time monitoring of meat spoilage.

146 more, we demonstrate the capabilities of the detector for the study of metamaterials.

147 ingle Ba(2+) ions in high-pressure xenon gas detectors for barium-tagging experiments.

148 research, we propose a joint constraint blob detector from U-Net, a deep learning model, and Hessian

149 magnetic (EM) wakefields excitation, protect detectors from damage at a range of installations and fa

150 a-Ca-Sr) influenced self-attenuation in well-detector gamma spectroscopy, thus highlighting the need

151 ed with gas chromatographic-flame ionization detector (GC-FID).

152 in longer travel time of the complex to the detector, greater extent of complex dissociation, and th

153 A new miniature deep UV absorbance detector has been developed using low-cost and high-perf

154 In our lab, a stripline NMR detector has been developed, which provides high resolut

155 The Difference of Gaussian (DoG) detector has been used to overcome these challenges in b

156 The proposed detector has subwavelength dimensions occupying an apert

157 n conventional NDIR gas sensors, an infrared detector has to pair with a bandpass filter to select th

158 nation (AF4) system coupled with UV and MALS detectors has been optimized to perform the fractionatio

159 The detectors have a linear response to X-ray energy and app

160 Though conventional radiation detectors have been incorporated into CE systems in the

161 t secondary ion mass spectrometry (TOF-SIMS) detectors have been intensively developed in recent deca

162 Also, these detectors have demonstrated a stable detection response

163 Terahertz sources and detectors have enabled numerous new applications from me

164 Finally, photovoltaic detectors have shown excellent photocurrent stability un

165 mance liquid chromatography with diode array detector (HPLC-DAD).

166 hy using a dual column/dual flame ionization detector (HS-GC-FID/FID), a technique routinely used in

167 The deep-learning detector identified specimens with dMMR or MSI with a me

168 at direction opponency in first-order motion detectors improves motion discriminability by suppressin

169 We apply ncHMR detector in ChIP-seq data-rich cell types and predict no

170 unctions as a downstream genomic coincidence detector in Or47b ORNs-integrating reproductive maturity

171 time cAMP dynamics using the cAMP difference detector in situ assay in a variety of immortalized cell

172 ow that the QS system works as a coincidence detector in which both autoinducers must be present simu

173 that the OHCs operate more like the envelope detectors in a classical gain-control scheme than like h

174 yer and is capable of learning early feature detectors in a completely unsupervised way.

175 A spectrometer comprising 16 LaBr(3)(Ce) detectors in a symmetrical configuration is employed to

176 -protein-coupled receptors are used as light detectors in animals.

177 For any given spatial pattern, motion detectors in both taxa are tuned to speed, selective for

178 de (MAPbI(3)) perovskite-based semiconductor detectors in satisfying all the requirements for its suc

179 function as the primary stretch and pressure detectors in the urinary tract mostly remain unknown.

180 Less is known about feature detectors, including how receptive field properties diff

181 g secondary ion signals acquired using a TOF detector incorporated into a commercial Ga(+) FIB-SEM (F

182 sity of the reflected white light to the CCD detector increased.

183 rovide new research paths for photovoltaics, detectors, infrared imaging, flexible electronics, and o

184 Furthermore, a dual-diode CQD detector into an unprecedented mid-wave infrared two-cha

185 Angle detection in the proposed detector is achieved by measuring the ratio of the absor

186 d mid-wave infrared two-channel polarization detector is functionalized by embedding an imprinted bil

187 The detector is mostly composed of off-the-shelf components,

188 However, the DoG detector is susceptible to over-detection and must be re

189 f single-pixel imaging, where a single pixel detector is used to detect the fraction of light transmi

190 The performance of the detector is validated with methanol-spiked breath of 20

191 nuclear detection with high-purity germanium detectors is given by the strong electromagnetic pulse c

192 loyment of this material in large-volume CZT detectors is still limited by the high production cost.

193 The "Dynamic Shift Detector" is an algorithm to identify changes in paramet

194 nce liquid chromatography - photodiode-array detector) is proposed.

195 With the combination of both detectors it was possible to determine phenolic acids, f

196 ese imaging devices as low-cost colorimetric detectors, it is paramount that they interface with flex

197 d analogous mammalian retinal GCs-local edge detectors (LEDs).

198 erformance liquid chromatography-diode array detector-mass spectrometry method was developed for char

199 Combining our method with the political bias detector Media Bias/Fact Check we quantify the relative

200 ved under two conditions: when switching the detector metal from Pt to Ta, reversing the sign of the

201 ved by the Chi-Squared Automatic Interaction Detector method.

202 using the Chi-squared Automatic Interaction Detector method.

203 Here, two deep learning-based detector methods were developed to identify pig postures

204 rices, and combination with other commercial detectors might improve the selectivity/sensitivity of t

205 Conclusion Deep-learning single-shot detector models detected nearly all brain metastases tha

206 roduce Prism-PET, a single-ended-readout PET detector module with a segmented light-guide composed of

207 ple 22.9-cm-long ring segments, each with 18 detector modules based on a commercial digital silicon p

208 Methods: High-resolution PET detector modules were fabricated with single-ended reado

209 other applications like bolometers, infrared detectors, Mott transistors and many more.

210 We also show that future GW detector networks will measure f-mode frequencies to wit

211 ept was abolished when the elementary motion detector neurons T4 and T5 were silenced.

212 A nano-gravimetric detector (NGD) for gas chromatography is based on a nano

213 Thus, Simu is a general detector of damaged self and represents a novel molecula

214 astatin 8 (TRPM8) ion channel is the primary detector of environmental cold and an important target f

215 that alpha-catenin's C-terminus is a modular detector of F-actin tension.

216 ate Deletion Finder (ADFinder), an efficient detector of PDEs using high-throughput sequencing data.

217 We show that DASC is a sensitive detector of phenotypic variation in CCP dynamics that is

218 all three receptors function as coincidence detectors of H(+) and Na(+).

219 NV) quantum defects in diamond are sensitive detectors of magnetic fields.

220 e channels and receptors, act as the initial detectors of temperature changes across taxa.

221 and measurement results of an angle-sensing detector optimized to operate at the wavelength of lambd

222 imaging (SPI) captures images without array detectors or raster scanning.

223 are coated with different chemicals as probe detectors or receptors.

224 ously measured using space- and ground-based detectors over a five-year period.

225 To monitor detector performance and sample preparation, we use egg

226 These levels of detector performance conventionally would be achievable

227 n-exchange chromatography-pulse amperometric detector performed after beta-elimination showed glucose

228 which was hyphenated with a photoionization detector (PID), thus creating a fast GC-PID system.

229 yer detector consists of an x-ray flat panel detector placed in front of a gamma camera with cone bea

230 We present flexible X-ray detectors prepared by thermoplastic dispersal of a semic

231 Results: The intrinsic detector properties were suitable for the simultaneous a

232 e compact two-dimensional (2D) LiInP(2)Se(6) detectors resolved the full-energy peak with an energy r

233 -1) and 12 ng mL(-1) for UV and fluorescence detectors, respectively.

234 Under the optimal conditions, the detector response for fluoroquinolones was linear in the

235 n CT vendors (7-11 mGy; P < .001), number of detector rows (8-9 mGy; P < .001), year of CT installati

236 e and model, year of installation, number of detector rows), scan protocols (body region, scan phases

237 esent a novel platform, rapid ultrasensitive detector (RUSD), that utilizes the high reflectance coef

238 ctors (craters in peat bogs) and space-based detectors (satellites measuring radio-frequency emission

239 We refer to these fish GCs as spot detectors (SDs) by analogy with the frog SD.

240 ation detection uniformity, and improved the detector sensitivity.

241 n PT despite the use of significantly higher detector settings for image acquisition in the former gr

242 The detector shows very low levels of stray light (<0.4%), u

243 asured multimode patterns themselves and the detector signals.

244 of a superconducting nanowire single-photon detector (SNSPD) directly coupled to a CMOS photonic mod

245 DL single-shot detector (SSD) algorithms were constructed and trained t

246 in the USA, as well as by utilizing advanced detectors, such as the prototype used in this study.

247 shaped gantry equipped with multiple movable detectors surrounding the patient.

248 molecules for use in high pressure xenon gas detectors, synthesized specifically for this purpose.

249 tems had the lowest LODs, and the dual-layer detector systems had the highest LODs.

250 g, dual-source, split-filter, and dual-layer detector systems in six different scanners.

251 ion-selective neurons, the elementary motion detectors T4 and T5.

252 ally demonstrated a single low frequency gas detector that can be used for sensing of gas mixtures wi

253 We developed IBIS, an IBD detector that locates long regions of allele sharing bet

254 persion is eliminated by using a modified UV detector that takes measurements directly on column.

255 Fielded IMS-based detectors that are in use for hazardous and illicit subs

256 e, using the two most common direct electron detectors (the Thermo Fisher Scientific Falcon 3 (F3EC)

257 Here, we develop ncHMR detector, the first computational framework to predict n

258 Compared to the EJ-309 detector, the stilbene-based detector exhibits a lower i

259 foil tracking during imaging with high-speed detectors, thereby lessening demands on cryostage precis

260 The power of this novel quintuple detector ThFFF (ThFFF-QD) is documented for three import

261 th a high bandwidth, single-photon sensitive detector, this enables recording of fluorescent lifetime

262 a mechanical monochromator to an electronic detector threshold allows for faster spectral data colle

263 n which the position of the beam on a single detector throughout one phase scan yields all misalignme

264 channel plate (MCP) based Timepix soft X-ray detector to conduct a time-resolved RIXS measurement at

265 r, we have developed an integrated radiation detector to enable measurement of the emitted radiation

266 We trained a deep-learning detector to identify samples with MSI from these slides;

267 s are combined with a high-speed 2D electron detector to map electrostatic fields around individual a

268 n ptychography using a fast, direct-counting detector to reconstruct the transmission function, which

269 -1, contribute to satisfying the coincidence detector to repress biofilm formation and promote disper

270 tilized in conjunction with conventional GPC detectors to analyze a series of broad MWD PS standards,

271 tennas of interferometric gravitational wave detectors to chip-scale quantum micro- and nano-mechanic

272 lk single crystals (e.g., in gamma and X-ray detectors) to polycrystalline films (e.g., in photovolta

273 d (emission) = 550 nm and with a diode array detector (UPLC-DAD) with (absorbance) = 532 nm.

274 ce liquid chromatography with a fluorescence detector (UPLC-FLD) with (excitation) = 530 nm and (emis

275 tical functioning components in noble liquid detectors used for high energy physics (HEP) experiments

276 However, the current iteration of such detectors uses a uniform glass light-guide to achieve de

277 nstrate a nanotechnology-based semiconductor detector using cross-nanowire networks that records the

278 actical device applications like sensors and detectors using 2D superconductors are still lacking.

279 e train presence, subsequently, an automated detector was applied to these data to record the seasona

280 The detector was applied within a miniaturized LC system.

281 The response of the detector was measured and shows the angle sensing dynami

282 The performance of these detectors was measured using a continuous wave excitatio

283 electron microscopy and a high-speed imaging detector, we observe dynamics involving distinct configu

284 ors with the potential to fill the role as a detector when cost, size, and customization are importan

285 The parallel use of two detectors, where qMS was applied for qualitative identif

286 nglion cells (RGCs) form an array of feature detectors, which convey visual information to central br

287 ations and/or anions and the use of multiple detectors, which further enhance selectivity/sensitivity

288 uires multiple pairs of bandpass filters and detectors, which makes the sensor bulky and expensive.

289 used with monochromatic 60-keV x-rays and a detector with either 46-um or 8-um pixel sizes.

290 hermometric substrate leading to an infrared detector with predicted maximum absorption of 99.94% at

291 xamined the performance of the Dynamic Shift Detector with simulations and two case studies.

292 pires us to develop a high temperature X-ray detector with stable response at up to 100 degrees C.

293 g (6)Li-enriched (95 per cent) LiInP(2)Se(6) detectors with full-peak resolution.

294 )Li, (10)B) could be used to develop smaller detectors with high intrinsic efficiencies.

295 ration of cryogenic, efficient scintillation detectors with nanosecond response time, marking a step-

296 emerging single-photon avalanche diode array detectors with resolution only limited by the temporal r

297 Depth-encoding detectors with single-ended readout provide a practical,

298 pliers (SiPM) are inexpensive, low-footprint detectors with the potential to fill the role as a detec

299 ding, but low-cost, open-source fluorescence detectors with ultrasensitive detection limits are lacki

300 the 40-kilogram mirrors of the Advanced LIGO detectors yield a joint quantum uncertainty that is a fa