コーパス検索結果 (1語後でソート)
通し番号をクリックするとPubMedの該当ページを表示します
1 east the slower parts of the kinetics (20-ms time resolution).
2 lectron beam properties with few-femtosecond time resolution.
3 r spectral changes with high sensitivity and time resolution.
4 apted to the time domain with sub-picosecond time resolution.
5 central equatorial Pacific at sub-millennial time resolution.
6 rganosulfates in the particle phase at 1 min time resolution.
7 ontinuous acquisition for up to 3 min at 2-s time resolution.
8 onized structural changes of DNA at a sub-ms time resolution.
9 -ray probe experiments with an unprecedented time resolution.
10 r protein sequence reconstruction, with deep time resolution.
11 MglA and gliding motors in high spatial and time resolution.
12 elementary steps of fusion with millisecond time resolution.
13 lt-born dentate granule cells with excellent time resolution.
14 riod (2000-2006) with results saved at daily time resolution.
15 micrometer spatial resolution and subsecond time resolution.
16 iffusion rates of molecules with millisecond time resolution.
17 ion monitoring of drugs of abuse with a high time resolution.
18 cuss various approaches for achieving better time resolution.
19 a molecular level with high sensitivity and time resolution.
20 ingle fluorescent proteins with up to 100-Hz time resolution.
21 itored electrophysiologically at millisecond time resolution.
22 strains on the single-cell level with 20 min time resolution.
23 ecules are often faster than the measurement time resolution.
24 of the water and the protein with ultrafast time resolution.
25 ed by X-ray powder diffraction with a 100 fs time resolution.
26 (OA), has been investigated with femtosecond time resolution.
27 uration of nucleosome binding with subsecond time resolution.
28 etection of minute current signals with good time resolution.
29 ombining structure resolution with ultrafast time resolution.
30 X-ray absorption spectroscopy (XAS) with ms time resolution.
31 fluorescent sensor for P(i) with millisecond time resolution.
32 nated via bioluminescent signal spectral and time resolution.
33 -molecule activation events often limits the time resolution.
34 e analysis with live-cell microscopy at high time resolution.
35 ce up-conversion measurements with sub 50 fs time resolution.
36 ration of individual cells) with millisecond time resolution.
37 med at the soma and axon with submillisecond time resolution.
38 ate and glutamine were measured with a 5 min time resolution.
39 particularly hampered by signal-to-noise and time resolution.
40 dynamics of proteins in solution with 100-ps time resolution.
41 ied at nanometer resolution with millisecond time resolution.
42 release with 5 ms/frame, or even 1 ms/frame, time resolution.
43 NARE-mediated fusion events with millisecond time resolution.
44 es at the molecular level with subpicosecond time resolution.
45 trate protein with tunable stability at high time resolution.
46 properties and camera parameters for optimal time resolution.
47 and with abnormal behaviors observed at high-time resolution.
48 iously estimated by other methods with lower time resolution.
49 o use imaging frame durations that limit the time resolution.
50 he metal/liquid interface with a femtosecond time resolution.
51 band structure of materials with femtosecond time resolution.
52 cessible by conventional NMR due its limited time resolution.
53 relaxation cycle with 1 mum spatial and 1 ms time resolution.
54 gene expression to be followed with improved time resolution.
55 e-cell level and offers high sensitivity and time resolution.
56 toring larger brain areas in-vivo with finer time resolution.
57 uisition system (musDAQ) that provided 5 mus time resolution.
58 nd the composition of emissions at an hourly time resolution.
59 ng energy and coherent size with femtosecond time resolution.
60 of different similarity metrics and various time resolutions.
61 higher sensitivity and improved spatial and timing resolution.
62 oot of the object size divided by the system timing resolution.
63 on future TOF PET/MR scanners with improved timing resolution.
64 al maps of efficiencies, timing offsets, and timing resolutions.
65 nnels were measured simultaneously at a high time resolution (~1 s) using two identical CRDS systems
66 ction dynamic of 95 ion traces in real time (time resolution = 1 s) during espresso coffee preparatio
68 eal-time PK curves with a hitherto unmatched time resolution (10 s), and none of the animals has to b
69 uisition (musDAQ) system that features 5 mus time resolution (100% duty cycle) to separate and quanti
71 s reporting data in near-real time at a high-time resolution, (2) increased computational and visuali
73 hase transitions, with millisecond or longer time resolution, account for processes occurring at surf
74 y of characterizing IVOC emissions with high time resolution across realistic engine operating condit
78 orption microscopy with approximately 200 fs time resolution and approximately 50 nm spatial precisio
79 carrier density with simultaneous ultrafast time resolution and approximately 50-nm spatial precisio
80 sient absorption spectroscopy with sub-20 fs time resolution and broad spectral coverage to directly
81 tween biomolecules in solution, offering new time resolution and control of the reaction processes.
83 decade, opening new windows into speciation, time resolution and detection of reactive and semivolati
84 ently, experimental techniques with adequate time resolution and elemental sensitivity to measure ini
86 process arise due the poor sensitivity, low time resolution and irreproducibility of translocation a
87 icroscopy settings with high sensitivity and time resolution and it demonstrates the usefulness of io
88 on limit of the method as a function of both time resolution and measurement coadditions is provided
89 ric compounds by MS/MS analysis, with better time resolution and minimal sample handling, compared to
90 ompassing method capable of both femtosecond time resolution and nanosecond relaxation measurement ha
93 3) perovskite nanowires with picosecond (ps) time resolution and show that lasing originates from sti
94 ecular recognition events, yet achieving the time resolution and statistics needed to realize this po
95 IR spectroscopy, which offers subpicosecond time resolution and structural sensitivity to distinguis
97 stigation of enzyme kinetics, including high time resolution and the ability to probe extremely large
98 r limit is a combination of the instrumental time resolution and the dissociation time of a ligand an
100 th near-atomic spatial resolution and 150-ps time resolution, and have used this capability to track
102 center, and the high-spin sensitivity, fast time resolution, and tabletop convenience of XUV transie
105 ivative (4-dimethylaminopyridine, DMAP) with time resolution as high as 4 mus was achieved without th
106 t nearly the speed of light in plasma with a time resolution as small as a few femtoseconds is propos
107 pproximately 50 nm in the axial direction at time resolutions as fast as 1-2 s with several independe
108 ed 4D EM to include liquid cells without the time resolution being limited by the response of the det
109 ls atomic scale processes with unprecedented time resolution bringing the so called "molecular movie"
110 eving not only sufficient simultaneous space-time resolution but also brightness for sufficient image
111 submillisecond mixer used here improves the time resolution by a factor of 50 compared to earlier .O
112 th an accurate TOF-based (timing offsets and timing resolutions) calibration, and similar to the resu
114 X-ray total scattering, used with subsecond time resolution, can yield detailed, valuable insights i
115 of magnitude, marring the otherwise precise time-resolution capabilities of this class of instrument
116 fast force spectrometer with sub-millisecond time resolution, combined with Brownian and Molecular Dy
117 ents into a single and robust technique with time resolution down to the ns scale, opening a new door
118 tors achieving single-photon sensitivity and time resolutions down to the picosecond range, thermoele
119 mples of its capability to combine very high time resolution, down to the attosecond regime, with bro
121 x 1 protein concentration kinetics with high time resolution during the first hours after trauma in i
122 en alga Chlamydomonas reinhardtii using high-time-resolution electron paramagnetic resonance (EPR) at
123 fluorescence change relative to a rapid high time-resolution event, such as an action potential or pu
125 id photobleaching, which is crucial for high time resolution experiments with elevated illumination i
127 protein degradation rates, measured in high time resolution, feature a sharp clock-regulated peak un
128 lly observed between ambient species in high time resolution fine particulate matter (PM2.5) data to
134 d empirical methods to enhance the depth and time resolution for the relevant polymorphisms and novel
136 for techniques with improved sensitivity and time resolution for use in exploring biomolecular system
137 data quality via an improved combination of time resolution, force precision, and force stability wi
138 The QCL mode then drastically boosts the time resolution from tens of milliseconds (in rapid-scan
139 lagmite delta(18)O record with multi-decadal time resolution from the temperate Korean Peninsula (KP)
140 can provide continuous measurements at high time resolution, giving new insight into N2O sources, si
144 dividual diesel trucks were measured at high time resolution in a highway tunnel in Oakland, CA, duri
150 and allows for continuous acquisition with a time resolution in the order of seconds, yielding kineti
151 roadband pump-probe experiments with ~100-fs time resolution in the visible and near infrared reveal
152 in-type pseudoknot obtained with microsecond time-resolution in response to a laser temperature-jump
154 s with 10 orders of magnitude improvement in time resolution, in convergent-beam ultrafast electron m
155 r structure can be followed with millisecond time resolution, including secondary structure at specif
156 or the past ~3 millennia at an unprecedented time resolution, indicating North Atlantic SSTs were col
157 ts based on the Hadamard transform, in which time resolution is defined by the underlying periodicity
159 s high elemental sensitivity; however, their time resolution is inadequate to characterize rapid envi
160 tal challenges in achieving high spatial and time resolution, it is not yet known whether or not TF a
161 The control over bilayer environment and time resolution makes this method a powerful assay for e
164 interrogation, as a means of collecting high time resolution measurements with sensors in this class.
165 e photoconductance, using simultaneous, high time-resolution measurements of membrane current and Ca(
166 HONO) mixing ratios was explored during high time resolution, month-long measurements by chemical ion
167 f single gold atoms and molecules with 17-us time resolution, more than a thousandfold improvement ov
170 r their detection are typically limited by a time resolution of 1 h or longer (e.g., via semicontinuo
172 spectroscopic imaging pulse sequence, with a time resolution of 10 minutes, was used to image glycoly
175 be imaged without hyper-polarization with a time resolution of 12s and an overall spatial resolution
182 s the X frequency band (8 GHz-12 GHz), and a time resolution of 200 ps (6 cm optical path in free spa
187 y range from 0.31 to 1.85 eV) in situ with a time resolution of 50 fs revealing several novel aspects
190 fMRI, this is necessitated by the fact that time resolution of a BOLD signal much lower than that of
191 time profile over the 33 ky, obtained with a time resolution of about +/-9 ky, does not seem to refle
196 ated ion channels control the submillisecond time resolution of binaural coincidence detection, but l
199 bilayers into pores is much shorter than the time resolution of current techniques for membrane trans
204 ton energy range of 0.7-3.4 eV measured with time resolution of few seconds over large numbers of cyc
207 hy-to-phonology mapping, capitalizing on the time resolution of magnetoencephalography and the unique
210 on-dissociation events that occur within the time resolution of our setup as well as FRET-fluctuation
211 es, reducing phototoxicity and improving the time resolution of particle tracking in live cells.
214 We demonstrate here that the technique has a time resolution of seconds and is capable of making stab
216 utocorrelation force spectroscopy pushes the time resolution of single-molecule force spectroscopy to
217 in the time scales of MD simulations and the time resolution of single-molecule measurements have cha
218 tion spectroscopy (XPCS) with submicrosecond time resolution of soft matter samples at the European X
220 ual synaptic responses, and we show that the time resolution of synaptic coincidence detection can be
226 The frame rate of the camera limits the time resolution of the experiment and thus the fastest r
227 T software for the purpose of rapid and real-time resolution of the full ASFV genome from a diagnosti
232 While some of these bulk assays provide time resolution of the order of 1min, they do not captur
234 rturbation of specific cellular pathways and time resolution of the TCRP approach can serve as a comp
237 sensitivity of 700 fm Hz(-1/2) and the fine time resolution of this technique, we were able to disco
238 ustic wave launcher, we achieve an effective time resolution of ~100 ps at a 25 nm spatial resolution
239 spinning disk fluorescence microscopy with a time resolution of ~20 ms, we could unambiguously distin
246 olution of 4.0 mm, energy resolution of 12%, timing resolution of 256 ps, and a noise-equivalent coun
247 n-echo (HeSE) technique achieves spatial and time resolution on the nm and ps scale, respectively, th
248 ingle cells during hyperosmotic shock with a time resolution on the order of seconds to examine the r
250 cence measurements, both with sub-picosecond time resolution, on model systems comprising lead halide
251 ontinuous protein transport assays with poor time resolution or reported by large, nonnatural tags th
256 nly known repeating burst source, using high-time-resolution radio interferometric observations that
257 in physiological conditions at the mass and time resolutions required to observe fast cellular dynam
260 ns from single hybridoma cells, the enhanced time resolution revealed two modes of secretion: one in
261 released as a function of time, with 50 mus time resolution, revealing biophysical characteristics o
264 tion dispersion during transport with a 30 s time resolution showed that the dispersion standard devi
266 iological systems at experimentally relevant time resolutions, such as those afforded by single-molec
268 Low Frequency Array, an instrument with high-time resolution that also permits imaging at scales much
269 layer transient is captured, due to the high time resolution that can be achieved with this probe.
270 absorption spectra obtained with picosecond time resolution that the nascent HCN products of reactio
271 the detection of single cell secretions have time resolutions that range from hours to days, and as a
272 ture prospect of significant improvements in timing resolution that could lead to further effective s
273 ecular scale to be tracked with any relevant time resolution, the emission strengths need to be well
274 visible and infrared regions with nanosecond time resolution, the latter being accomplished using tun
275 These limitations place constraints on the time resolution, the signal-to-noise ratio, and the tota
277 ight sources, which can be studied with high time resolution, thus providing access to picosecond dyn
278 between F subunits a and c by improving the time resolution to 10 mus at unprecedented S/N, and by u
280 s isotopomers with excellent sensitivity and time resolution to characterize bacterial growth and met
281 sembly in its native environment, with ample time resolution to extract kinetic rates and observe int
282 ed electrophysiological techniques with high time-resolution to directly investigate the mechanistic
283 potentials (ERPs), known for their excellent time resolution, to examine whether lexical feedback mod
287 was carried out for more than 16 h at 1 min time resolution using microdialysis coupled online to a
288 sence of PCNA were determined at millisecond time resolution using quench flow kinetic measurements.
289 l Compton scatter recovery), good energy and timing resolutions (using polished crystals and after ap
291 acitance measurements that offer millisecond time resolution, we demonstrate that the dynamics of ves
292 raphy to measure neural activity with a high time resolution, we show that such episodic retrieval en
294 earity up to hundreds of mug m(-3) at 0.2 Hz time resolution were observed for single- and mixed-comp
295 on cross section (M.A.C., m(2)/g) with 1 min time resolution when soot concentrations were in the low
296 omplementary temporal information of a given time resolution, which can be directly linked to the cor
297 four dimensional (4D) PAT, which integrates time resolutions with 3D spatial resolution, obtained us
298 ography by integrating the fourth dimension (time resolution) with the 3D spatial resolution obtained
299 aerosol OP are labor intensive and have poor time resolution, with significant delays between aerosol
300 megabecquerel amounts of tracer or subsecond time resolution would enable a wide range of new imaging