ライフサイエンスコーパス: high speed

1 ne that can rotate the flagellar filament at high speed.

2 get are reduced when the target is moving at high speed.

3 motion direction of receiver substrates at a high speed.

4 al conduction with high ON/OFF ratios and at high speed.

5 ral information with high sensitivity and at high speed.

6 tures and dynamic processes in live cells at high speed.

7 ardware to generate short-read alignments at high speed.

8 materials and to manipulate the topology at high speeds.

9 mage 3D volumes with high resolutions and at high speeds.

10 due to the drag created by an open mouth at high speeds [1,2].

11 ntinuous amperometric signals are sampled at high speed (10 kHz) to record sub-millisecond spikes, wh

12 Synchronized high-speed (124 or 210 kiloframes per second) video imag

13 -atom accelerator ring to bring BECs to very high speeds (16 times their sound velocity) and transpor

14 a CO chondrite) and entered the atmosphere a high speed (~16 kms(-1)), implying an origin from a high

15 rastable electron-optics are combined with a high-speed 2D electron detector to map electrostatic fie

16 lena gracilis We achieved this task by using high-speed 2D image recordings taken with a conventional

17 es to design powerful and extremely accurate high-speed 3D imaging systems ubiquitous in nowadays sci

18 rical connectivity poses barriers to current high-speed 3D-printing approaches.

19 bility to measure spectral depth profiles at high speed (5 s acquisition time) and the ease of implem

20 Using a high-speed (750 fps) charge-coupled device camera, we me

21 on in these environments also requires ultra-high-speed acquisition.

22 regime governed by inertial effects in which high-speed actuation is possible.

23 High-speed actuation of laser frequency(1) is critical i

24 Finally, we demonstrate how high-speed AFM can visualize plasmid DNA dynamics, inter

25 imaging of the human Mre11/Rad50 complex by high-speed AFM shows that the Rad50 coiled-coil arms are

26 ng technique (CRISPR-Cas9 nanoparticles) for high-speed AFM-based physical mapping of DNA and (2) the

27 using DVD optics to image DNA molecules with high-speed AFM.

28 neurosynaptic networks promise access to the high speed and high bandwidth inherent to optical system

29 ysis directly on solid surfaces that is both high speed and high throughput, utilizing equipment avai

30 n 30 nm devices, thus opening a new realm of high speed and highly efficient nonvolatile memory appli

31 ccNetViz is an open-source, high speed and lightweight JavaScript library for visual

32 logic that can achieve both simultaneously (high speed and low consumption), here demonstrated for N

33 ite molecular discrimination capacities with high speed and low cost, but rigorous discrimination bet

34 aging of live cells and organisms due to its high speed and reduced photodamage.

35 High speed and sensitivity are due to three main feature

36 work at room temperature, while maintaining high speed and sensitivity, properties which are inheren

37 ns and neural circuits over large volumes at high speed and subcellular resolution is a difficult tas

38 lectronic devices can perform inference with high speeds and energy efficiencies, but they still lack

39 fect was less pronounced for front impact at high speeds and for side and rear impacts.

40 in the study site due to their high numbers, high speeds and proximity to the coast.

41 neurons able to perform processing tasks at high speeds and with continuous operation remain elusive

42 current methods are suboptimal in providing high-speed and accurate OCT attenuation mapping for intr

43 Furthermore, these channels permit high-speed and high-frequency AP conduction along the my

44 This high-speed and high-performance OCT system centered at 1

45 ductor materials and paves the way to future high-speed and high-reliability devices.

46 These high speeds should enable high-speed and high-throughput image-assisted cell sorti

47 High-speed and low-light-sensitive videos show how L. po

48 turable nanoelectronic platform feasible for high-speed and low-noise sensing of a variety of biomole

49 ake Bi2O2Se a promising candidate for future high-speed and low-power electronic applications.

50 xpose the technology's lack of high-density, high-speed and power-efficient memory.

51 Here, we report a label-free, high speed, and high-resolution platform technology, foc

52 functions, operate over broad bandwidths at high speeds, and work equally well at high power and sin

53 Here we demonstrate a high-speed approach, termed as Clearing Assisted Scatter

54 process that occurs in prokaryotic cells at high speeds ( approximately 1 nucleotide residue added p

55 Both the optical pulling and high speeds are made possible by a unique NP-laser inter

56 How does a biomolecular machine achieve high speed at high efficiency?

57 We have used high-speed atomic force microscopy (HS-AFM) and all-atom

58 Here we used high-speed atomic force microscopy (HS-AFM) and kinetic

59 High-speed atomic force microscopy (HS-AFM) can be used

60 ption factor fusion, GAL4-VVD, and DNA using high-speed atomic force microscopy (HS-AFM) is reported.

61 Here we present high-speed atomic force microscopy (HS-AFM) observations

62 Here, we use high-speed atomic force microscopy (HS-AFM), fluorescenc

63 Using high-speed atomic force microscopy (HS-AFM), we explored

64 rs into fibers is visualized in real-time by high-speed atomic force microscopy (HS-AFM).

65 Here we undertake a direct high-speed atomic force microscopy imaging analysis to v

66 Here, we develop and apply high-speed atomic force microscopy line-scanning (HS-AFM

67 We also use high-speed atomic force microscopy to analyse the deform

68 Here, we used high-speed atomic force microscopy to directly visualize

69 Here, we used high-speed atomic force microscopy to visualize and char

70 Here, we applied time-lapse high-speed atomic force microscopy to visualize the conf

71 High-speed atomic force microscopy with single-molecule

72 Using (high-speed) atomic force microscopy and fluorescence cor

73 peed of ~30 um s(-1), providing a stable and high-speed avenue for directed material transport at the

74 rescence correlation spectroscopy with ultra-high speed axial line scanning, yielding precise equilib

75 e drive a nanoparticle to rotate at a record high speed beyond 5 GHz (300 billion r.p.m.).

76 is one of the most attractive for capturing high-speed biological dynamics unfolding in three dimens

77 tal light processing (DLP) stands out in its high speed but is limited to intractable light curable t

78 Here, using high-speed Ca(2+) imaging up to 20 kHz in the rat layer

79 Using in vivo optogenetics and high-speed Ca(2+) imaging, we show that these filopodia

80 logy, especially for achieving subnanosecond high-speed cache memory.

81 y the rock-climbing fish was observed with a high speed camera.

82 omb superlattice are verified by utilizing a high speed camera.

83 ce emission of these parallel streams onto a high-speed camera for analysis.

84 30 s, bead fluorescence is measured using a high-speed camera under spatially multiplexed two-colour

85 A Phantom v7 high-speed camera was used to record images at a rate of

86 Using a high-speed camera, three regimes (no cavitation, cavitat

87 ently, the study of cilia requires expensive high speed cameras and high powered microscopes which is

88 ultrasonic microphone synchronized with two high-speed cameras for 3D flightpath reconstructions.

89 High-speed capillary electrophoresis (HSCE) is implement

90 red appearance of soluble solid separated by high speed centrifugation denoted the presence of lycope

91 filled into laser engineered micromoulds by high-speed centrifugation (30min) to concentrate NMP int

92 d great promise for enabling next-generation high speed computation and communication systems.

93 The AutoCLEM system encompasses a high-speed confocal live-cell imaging module to acquire

94 Here, we have used high-speed confocal microscopy both to measure displacem

95 Pt/C-decorated carbon felt was designed, and high-speed, continuous production of V(3.5+) electrolyte

96 applications that require highly efficient, high speed current-induced magnetic switching.

97 Scalable, low power, high speed data transfer between cryogenic (0.1-4 K) and

98 ating the potential for applications such as high-speed data processing and long-wavelength energy ha

99 e computing resources, from robust backup to high-speed data transfer to scalable compute and storage

100 gies capable of high-frequency operation for high-speed data transfer.

101 ws precise foil tracking during imaging with high-speed detectors, thereby lessening demands on cryos

102 deeply scaled spin-orbit devices exhibiting high-speed deterministic switching at room temperature.

103 FSO) systems offer the ability to distribute high speed digital links into remote and rural communiti

104 to an acoustic nanoliter dispenser to enable high-speed direct MS analysis from 384-well plates with

105 The method takes advantage of high-speed DNA hybridization and denaturation on beads u

106 We demonstrate the development of a high-speed Doppler optical coherence tomography system t

107 scientists have typically used tools such as high-speed drills adapted from dentistry to perform thes

108 essible imaging platform for myriad emerging high-speed dynamic and high-throughput volumetric micros

109 ates by modulating proton distribution under high speed electric pulses.

110 grated circuits require dense integration of high-speed electro-optic functional elements on a compac

111 The demonstration of energy efficient and high-speed electro-optic modulation at the wavelength sc

112 ion of flying qubits(5), high-resolution and high-speed electromagnetic-field sensing(8) and high-acc

113 acity fast-charging batteries and integrated high-speed electronic circuits(6,14-16,20,23,24).

114 ach paves the way to future power-saving and high-speed electronic-photonic computing circuits.

115 tection, light emission, data communication, high-speed electronics and light harvesting (8-16) requi

116 Practical high-speed electronics, on the other hand, usually deman

117 es for next-generation ultrathin, low-power, high-speed electronics.

118 High-speed emission spectroscopy revealed that 50 ns aft

119 High-speed en face Doppler OCT can measure TRBF in healt

120 Using high-speed epifluorescence microscopy, RhoVR-Halos provi

121 wever, we observed that an impacting drop at high speeds exhibits more complicated dynamics with unex

122 ur results provide the SERS community with a high-speed experimental approach to study the fast dynam

123 We validate our model with high-speed experiments and present our results in a non-

124 This is achieved by high-speed focused ion beam (FIB) milling though the app

125 icroscopy provides excellent sensitivity and high speed for grain boundary visualization regardless o

126 Here we combine molecular dynamics and high-speed force spectroscopy on the streptavidin-biotin

127 ge, cleared, and expanded neural tissues and high-speed, functional imaging in vivo.

128 High-speed high-resolution data acquisition now permits

129 Here, by combining in-situ high-speed high-resolution synchrotron x-ray imaging exp

130 requency comb source is of great interest to high speed, high resolution spectroscopy and metrology.

131 lding of steel are investigated in situ with high-speed, high-energy synchrotron X-ray radiography.

132 High coherence of lasers is desirable in high-speed, high-resolution, and wide-field imaging.

133 Using advanced high-speed, high-spatial resolution, synchrotron-based X

134 moval of high-molecular-weight alkanes under high-speed/high-load conditions relative to lower-molecu

135 These are increased under high-speed/high-load conditions, and the results suggest

136 d particle filter of 50, 56, and 74% for the high-speed/high-load, low-speed/low-load, and high-speed

137 plane-wave imaging method was used to obtain high-speed image data from in utero mouse embryos and mu

138 Off-axis high speed imaging confirms a technically relevant solid

139 High speed imaging is used to extract the dynamic contac

140 Ultra-high speed imaging revealed that melt pool oscillations

141 ant premisting modified and visualized using high-speed imaging and broadband or monochromatic laser

142 The TR-HS integrates high-speed imaging and computer vision to automatically

143 Using high-speed imaging and machine vision, we estimated whis

144 Using transmission electron microscopy and a high-speed imaging detector, we observe dynamics involvi

145 High-speed imaging has been used for the first time to v

146 we combined electrophysiology and real-time high-speed imaging of extracellular glutamate transients

147 the deleterious effects of brain movement on high-speed imaging of small regions of interest and phot

148 LA-ICP-MS) setup allows for high-resolution, high-speed imaging of the distribution of elements withi

149 Here, we developed a high-speed imaging system that measures whisker movement

150 f the hair bundle deflection, we developed a high-speed imaging technique to quantify this deflection

151 esent combined in situ X-ray diffraction and high-speed imaging to monitor the phase evolution upon c

152 g direct observation of ejecta behavior, via high-speed imaging, to identify interactions between eje

153 rynx experiments, tensile material tests and high-speed imaging, we show that vocal state transition

154 -whole brain calcium and voltage activity at high speed in behaving adult flies.

155 lls migrate persistently (in 1 dimension) at high speeds in 3-dimensional shapes with thick nuclei, a

156 l-frequency, petahertz (PHz) electronics for high-speed information processing.

157 able of producing irregularly shaped, large, high-speed injuries as seen on the battlefield, making r

158 Here, we combine high-speed intensified camera technology with a versatil

159 ght morphologies typically adapted either to high-speed interception or manoeuvring through clutter,

160 Here, high-speed interference contrast microscopy is used to d

161 itude and near-wall flights based on in vivo high-speed kinematic measurements to quantify changes in

162 Raman scattering (SRS) microscopy allows for high-speed label-free chemical imaging of biomedical sys

163 cation of flexible SERS substrate due to its high-speed, large-area, high-resolution and high-through

164 interactions during the drying process using high speed laser scanning confocal microscopy to obtain

165 Ultra-high-speed laser scanning confocal imaging captured Ca(2

166 cally driven polariton lasers as well as for high speed light-emitting diodes (LEDs) for communicatio

167 ional components on this platform, reporting high-speed LN electro-optic modulators, based upon photo

168 -invariant correlation may indicate that the high-speed local velocities during the Haines jump would

169 the development of a novel high resolution, high speed, long working distance, and large field of vi

170 of brain activity in awake mice for improved high-speed longitudinal neuroimaging.

171 r by lowering run times, lending itself to a high-speed low-cost process.

172 terials and provide opportunities to realize high-speed low-dissipation devices.

173 Owing to apparent benefits, such as high speed, low cost, and high throughput, the genotypin

174 p Gear" race track under extreme conditions (high speed, low visibility, low temperature, wet track).

175 rocessed organic films are a facile route to high-speed, low cost, large-area deposition of electrica

176 Fluorescence changes were detected with a high-speed, low-noise CCD camera.

177 igh-speed/high-load, low-speed/low-load, and high-speed/low-load conditions respectively.

178 hnique offers opportunities for non-contact, high-speed manipulation of matter, with applications in

179 From simultaneous high-speed measurements of cell length changes and cytos

180 In summary, we present a technically simple high-speed method for measuring contractile forces and c

181 4-bit arithmetic logic unit consisting of 8 high-speed microdisk modulators and operating at 20 GHz.

182 This work has realized a high-speed micromotor actuated by ultralow frequency mec

183 A high-speed micromotor is usually actuated by a power sou

184 d improved near-infrared voltage indicators, high-speed microscopes and targeted gene expression sche

185 With high-speed microscopy and echocardiography, we show that

186 High-speed microscopy recordings of hind legs during the

187 High-speed microscopy shows that contact line velocities

188 Here, we demonstrate a high-speed microscopy/thermometry capability that enable

189 d protein kinase (ROCK) is required for both high-speed migration and straight motion.

190 effect presents a major challenge to achieve high-speed modulation of Si(3)N(4).

191 exceeds 14 GHz indicating potential for the high-speed modulation of terahertz waves.

192 environments and trypanosome morphologies to high-speed motility data, which paves the way for cross-

193 Directed high-speed motion of nanoscale objects in fluids can hav

194 nation of third-harmonic generation imaging, high-speed motorized scanning, and automated software pr

195 rapid and easy measurement of movement from high-speed movies in (1) 1-dimensional in vitro models,

196 High-speed multiwavelength fluorescence measurements are

197 trade-off between low energy consumption and high-speed nanophotonics, introducing vortex microlasers

198 ld exciting prospects for novel, compact and high-speed neuromorphic photonic platforms for future co

199 improved the User experience, including the high-speed NGL Viewer that provides 3D molecular visuali

200 uclei at electrode surfaces in real time via high-speed non-contact lateral molecular force microscop

201 Here we present a high-speed non-linear microscope achieving kilohertz fra

202 Through high-speed observations of freely swimming cells, we fou

203 sts that it can be one of the most promising high-speed OCT platforms enabling a wide range of new sc

204 as low consumption of reagents and samples, high speed of analysis, possibility of portability and t

205 ly with active GPCRs and that the well known high speed of GPCR signal transduction does not require

206 a challenge due to the low concentration and high speed of physiological signaling.

207 in the negative pulse mode is developed for high-speed one-dimensional gas chromatography (1D-GC), c

208 inhibition, allows rapid liquid flow toward high-speed open-air printing.

209 nfortunately, current solutions offer either high-speed operation or low-energy consumption.

210 the transmission mode and sustainable in the high-speed operation regime up to a 10-GHz-scale modulat

211 Current day high speed optical communication systems employ photonic

212 metric Down Conversions using an intensified high-speed optical camera, Tpx3Cam.

213 asing thresholds, making them unsuitable for high-speed optical communication and computing.

214 ng techniques it enables novel solutions for high-speed optical imaging and spectroscopy.

215 nication systems and within data centres for high-speed optical networking of computers.

216 Thus, ASAP3 and ULoVE enable high-speed optical recording of electrical activity in g

217 We design and build a high-speed optical system to measure action potential, c

218 An ultra-high-speed optical trap enabled direct observation of th

219 prefer cases where the water drops move at a high speed, or vibrate at a high frequency.

220 processes and experiments demonstrate ultra-high-speed PCDIH techniques for capturing dynamics.

221 ncrease imaging rates, we introduce an ultra-high-speed phase conjugate digital in-line holography (P

222 To track high-speed phenomena, we created a two-photon microscope

223 We used high-speed photography to observe thousands of dry-dispe

224 Combining high-speed photons with long-coherence-time magnons, suc

225 We develop a high-speed platform capable of imaging more than 15000 n

226 We have used high-speed pressure clamp and elastomeric pillar arrays

227 1.4 nm) and neurites (-0.7 to 0.9 nm), using high-speed quantitative phase imaging with a temporal re

228 to natural ecosystems, such as motorways and high-speed railways, causes direct loss of habitat but a

229 ntractile properties, hydrodynamics, and the high speeds required likely impose an upper limit to the

230 ker CoFeB layers which are incompatible with high speed requirements.

231 demonstrate the applicability to GC x GC, a high-speed separation of a 20-component test mixture of

232 These high speeds should enable high-speed and high-throughput

233 High-speed SiGe film is promising use in photonics and e

234 We used newly developed, high-speed, simultaneous sodium and calcium imaging to e

235 s with these topological challenges, we used high-speed single-molecule fluorescence imaging in live

236 With high-speed single-molecule microscopy we observed genomi

237 We recently developed high-speed single-point edge-excitation sub-diffraction

238 for use with enucleated eyes that utilizes a high-speed solenoid device suitable for creating militar

239 Here we demonstrate high-speed soliton microcomb actuation using integrated

240 We envision that a new class of low-power, high-speed, special-purpose signal processors can be rea

241 comb photoacoustic spectrometer could enable high-speed spectrally resolved photoacoustic imaging.

242 form the core of many emerging concepts for high-speed spintronic applications.

243 ing route for practical energy-efficient and high-speed spintronic devices.

244 tiferromagnetic-type spin waves are innately high-speed, stable and dual-polarized.

245 cus undulatus) were reconstructed in 3D from high speed stereo videography of their flights in an obs

246 constant movement, we remain unaware of the high-speed stimulation produced by the retinal displacem

247 the rotational geometry of the prostate and high speed structured illumination microscopy (SIM) to g

248 Using live-cell high-speed super-resolution single-molecule microscopy w

249 We used high-speed superresolution localization microscopy of li

250 Participants were imaged with a high-speed, swept-source OCT prototype at 1050-nm wavele

251 the switching probability, characterized by high speed switching (~200 ps), error rates as low as 10

252 tential to simultaneously exhibit efficient, high speed switching in accordance with the conservation

253 s proved challenging, but recent advances in high-speed synchrotron radiography now permit the study

254 A high-speed synchrotron X-ray imaging technique was used

255 In optical coherence tomography (OCT), high-speed systems based at 1300 nm are among the most b

256 s can remain open for a long time during the high-speed tank-treading induced stretching and compress

257 lurring of the eye, (ii) acquiring images at high speed that samples phase dynamics at up to 3 KHz, a

258 With its accuracy and high speed, this server will be a useful tool for batch

259 There is a need for a high-speed tool that uses optimized parallel programming

260 High-speed tracking of single ATCC10798 cells showed for

261 ined using a two-part process centred on the high-speed transcript quantification tool Kallisto.

262 properties with cells and the possibility of high-speed transduction of biochemical signals into dete

263 on(4,5) as a candidate material platform for high-speed, transparent and flexible electronics(6-9).

264 In this work we demonstrate a reliable high-speed true random bit generator (TRBG) device based

265 aerosols generated by ultrasonic scalers and high-speed turbines, the specific types of organisms or

266 e wall and then propels it laterally at very high speeds (up to 90 body lengths per second with a bod

267 introduce a novel design for a high-gain and high-speed (up to terahertz) photonic transistor and its

268 Falcons intercept prey at high-speed using the same proportional navigation guidan

269 Using high speed video microscopy-, immunofluorescence-, and i

270 Using synchronised high-speed video and audio recordings, we quantified beh

271 tion of the flight muscles with synchronized high-speed video and electromyography and used computati

272 or photographed since, but eluded capture by high-speed video cameras.

273 d number of cilia per cell, as documented by high-speed video microscopy (HVMA), transmission electro

274 ynamics of cilia motion were investigated by high-speed video microscopy of uniciliated mutants of th

275 immunofluorescence and genetic analyses, and high-speed video microscopy.

276 In addition, our high-speed video observations of the injection process,

277 utomatic system to track whiskers in 3D from high-speed video, creating the opportunity for comprehen

278 We used high-speed video, electromyographic recordings, and a ne

279 High-speed videoendoscopy, an emerging method that allow

280 kinematics during pain behavior in mice with high-speed videography and automated paw tracking with m

281 Here, high-speed videography during nociceptive Adelta fiber s

282 behavioral genetics, electrophysiology, and high-speed videography to advance a function for behavio

283 High speed videomicrographs showed that T. brucei, L. me

284 ear and lateral line hair cells and acquired high-speed videos of head-fixed larvae while simultaneou

285 Our high-speed videos show needles blinking in slow motion i

286 KEY POINTS: Using high-speed videos time-locked with whole-animal electric

287 rovide direct experimental evidence based on high-speed videos which reveal that Halobates exploit th

288 By using a high-speed virtual 3D super-resolution microscopy, we ha

289 X-ray images were synchronized with a second high-speed visible light camera and two thermocouples to

290 proposed system is a four-colour multiplexed high-speed VLC system that uses a microelectromechanical

291 e optical coherence tomography (PS-OCT) is a high-speed volumetric imaging modality that can be used

292 Here we used high-speed volumetric swept confocally aligned planar ex

293 dispensing modes of operation discussed are high-speed, well-to-well dispensing of individual nanoli

294 calization cues rendering them unreliable at high speeds, which results in the UL.

295 d to consider how such shifts, together with high speed winds, will affect terrestrial ecosystems.

296 We find that a machine can achieve high speed without sacrificing efficiency by varying its

297 We have used in situ high speed X-ray diffraction to extract subsurface cooli

298 High-speed x-ray imaging enables operando observation of

299 These results were obtained by implementing high-speed X-ray imaging of the film collapse on a heate

300 Here, in-situ high-speed X-ray imaging of the powder-blown additive ma

301 ting process was recorded in real time using high-speed X-ray imaging.