ライフサイエンスコーパス: narrow-band

1 ons, and phase correlation in both broad and narrow band.

2 rolled by the localization of damage along a narrow band.

3 First, we illustrate a type of plasmonic, narrow-band (~15 nm), high-contrast (>20 dB) absorber an

4 uced susceptibility to erythema arising from narrow-band 311-nm UVR in humans.

5 Narrow-band (312 nm) ultraviolet B light (UVB) is a new

6 We report narrow-band absorption enhancement of semiconductor nano

7 d with optimal detection of gaps embedded in narrow-band acoustic noise stimuli lacking low-frequency

8 nine kinase is colocalized with F-actin in a narrow band along the leading edges of lamellipodia of m

9 (RF) SWNT analog electronic devices, such as narrow band amplifiers operating in the VHF frequency ba

10 The mean persistence was 63% for narrow-band and 64% for broad-band lamps (p = 0.94).

11 We examined the erythemal response to narrow-band and broad-band ultraviolet B in 12 patients

12 ut rather weights motion preferentially in a narrow band at approximately one-third the radius of the

13 The neurosecretory axons are localized to a narrow band at the anterior margin of the transverse ner

14 eves both excitation and detection only in a narrow band at the cavity resonance.

15 Detritylation occurs mostly in a narrow band at the front of the advancing saturated zone

16 temperatures, solutes are concentrated into narrow bands at the head of the column.

17 , within the substantia innominata, and in a narrow band bordering the substantia innominata and the

18 mposition (EMD), which allows measurement of narrow-band changes in the EEG without predefining frequ

19 ic, narrowly frequency-tuned module [central narrow band (cNB)] of cat central primary auditory corte

20 y neurons with sharp frequency tuning act as narrow-band coincidence detectors; such neurons respond

21 ther greater or lesser burning episodes with narrow-band compared to broad-band ultraviolet B, even w

22 y facilitate the generation of nondegenerate narrow-band continuous-variable entanglement between bri

23 aries and indicated the location of periodic narrow-band contrast increments relative to their gaze p

24 Correspondingly, narrow band directed biopsies detected dysplasia in more

25 and exciton transitions, and a quench of the narrow band-edge photoluminescence.

26 ogonal sets of slits (bigrating) allows this narrow-band effect to be broadened when the two orthogon

27 processability of organic materials with the narrow-band, efficient luminescence of colloidal quantum

28 tion of a path defined by aligned, spatially narrow-band elements on a dense field of otherwise simil

29 110 meV), efficient polariton relaxation and narrow band emission (<15 meV).

30 ted using a facile one-pot synthesis exhibit narrow-band emissions at 529 nm and quantum yield up to

31 ts (Pdots) that show large Stokes shifts and narrow-band emissions in the near-infrared (NIR) region.

32 Very narrow-banded emissions at frequencies corresponding to

33 vented the current difficulty with obtaining narrow-band-emitting and near-IR-fluorescing semiconduct

34 Narrow band endoscopy was then used by another gastroent

35 ty is widely observed in layer 2/3 (L2/3), a narrow-band fast oscillation (10-15 Hz) is prominent in

36 alize sounds that have been passed through a narrow-band filter.

37 ies for designing novel photonic devices for narrow-band filtering, absorptive switching, optical mod

38 tic networks with various properties such as narrow-banded filtering.

39 and unique photophysical properties such as narrow-band fluorescence emission.

40 t to arise from the convergence of parallel, narrow-band frequency channels that originate in the coc

41 are tightly linked to neural activity in the narrow band gamma (NBG) range, others have found a weak

42 There were brief bursts of narrow-band gamma oscillations (45-100 Hz), varied in ti

43 The regioregular narrow band gap (E(g) ~1.5 eV) conjugated polymer PIPCP

44 Increases in the molecular length of narrow band gap conjugated chromophores reveal potential

45 series of donor (D)-acceptor (A) alternating narrow band gap conjugated chromophores were synthesized

46 eport on the interaction of Lewis acids with narrow band gap conjugated copolymers containing donor a

47 tical and electronic properties of two novel narrow band gap conjugated polyelectrolytes (NBGCPEs) ba

48 Comparison against a wide range of analogous narrow band gap conjugated polymers reveals that this V(

49 pi-Conjugated, narrow band gap copolymers containing pyridal[2,1,3]thia

50 A family of soluble narrow band gap donor-acceptor conjugated polymers based

51 Given the narrow band gap enabling excellent optical absorption, i

52 Colloidal nanocrystal quantum dots (NQDs) of narrow band gap materials are of substantial general int

53 nd RbBi11/3Te6, featuring Bi vacancies and a narrow band gap of 0.25(2) eV at room temperature.

54 The electrochromic properties of the narrow band gap polymers are also of interest as the pol

55 Tin sulfide, SnS, is a narrow band gap semiconductor comprised of inexpensive,

56 n of the ideas of surfactant templating to a narrow band gap semiconductor opens up the exciting pote

57 pectroscopy indicates that the material is a narrow band gap semiconductor with a band gap of 0.8 eV.

58 Narrow band gap tin(II) chalcogenide (SnS, SnSe, SnTe) n

59 like a charge-balanced semiconductor with a narrow band gap.

60 A series of narrow-band gap conjugated molecules with specific fluor

61 ies of thin film blends comprising DTDCTB, a narrow-band gap electron donor, and either C60 or C70 as

62 Moreover, the narrowed band gap is partially retainable after releasin

63 ials for enhancing visible light absorption, narrowing band gap, and improving photocatalytic activit

64 All compounds are narrow band-gap semiconductors with optical band gaps ra

65 afforded molecular materials that behave as narrow band-gap semiconductors, [Fe(tpma)(xbim)](X)(TCNQ

66 many material systems including semimetals, narrow band-gap semiconductors, multi-layer graphene and

67 nductor nanocrystals possessing a relatively narrow band-gap.

68 PCPDTBTSO3 K, an anionic, narrow-band-gap conjugated polyelectrolyte, was found to

69 sion efficiencies of solar cells composed of narrow-band-gap conjugated polymer donor/fullerene accep

70 his contribution reports a series of anionic narrow-band-gap self-doped conjugated polyelectrolytes (

71 ic devices has been studied by using two new narrow-band-gap systems.

72 Thin film optical measurements revealed narrow band gaps of 1.5-1.8 eV, which gives the polymers

73 rly, most of the topological insulators have narrow band gaps, and hence have promising applications

74 pproach to efficient dielectric mirrors with narrow band gaps.

75 vert UV light to 542 nm or 613 nm wavelength narrow-band green or red light, or wide-spectrum white l

76 Here, we show that standard narrow-band, high-frequency admittance measures of nonli

77 h a deep neural network (DNN-CAD) to analyze narrow-band images of diminutive colorectal polyps.

78 been demonstrated in a number of studies by narrow band imaging (92.7 and 94.5%), confocal laser end

79 -time optical biopsy analysis of polyps with narrow band imaging (NBI) by community-based gastroenter

80 Narrow band imaging (NBI) endoscopy system enhances visu

81 High-resolution endoscopy with narrow band imaging (NBI) enhances the visualization of

82 Narrow band imaging (NBI) might highlight adenomas and l

83 niques incorporated into endoscopes, such as narrow band imaging (Olympus), i-Scan (Pentax), and Fuji

84 Narrow band imaging and confocal laser endomicroscopy ma

85 Narrow band imaging and esophageal capsule endoscopy are

86 Narrow band imaging has been shown to visualize capillar

87 Narrow band imaging has gained in popularity because of

88 Confocal laser endomicroscopy and narrow band imaging have a 77-99.4% sensitivity for earl

89 rence tomography, photodynamic diagnosis and narrow band imaging might be considered because these em

90 Narrow band imaging provides clear visualization of the

91 ation, and the need for custom multispectral narrow band imaging systems to separate the signal into

92 olangioscopy, confocal laser microscopy, and narrow band imaging) have been described in the evaluati

93 as Fujinon intelligent color enhancement and narrow band imaging, also have potential to differentiat

94 Chromoendoscopy, narrow band imaging, and autofluorescence provide a way

95 lications, such as photodynamic diagnosis or narrow band imaging, and their progressive implementatio

96 f these, such as autofluorescent imaging and narrow band imaging, are 'red flag' techniques which enh

97 Electronic chromoendoscopy methods (narrow band imaging, Fujinon Intelligent ChromoEndoscopy

98 Narrow-band imaging (NBI) allows real-time histologic cl

99 nderwent endoscopy with white-light imaging, narrow-band imaging (NBI) with magnifying endoscopy (ME)

100 evelop and evaluate the validity of a simple narrow-band imaging (NBI)-based classification system fo

101 three types of narrowed spectrum endoscopy (narrow-band imaging [NBI], image-enhanced endoscopy [i-s

102 nts underwent high-resolution endoscopy with narrow-band imaging at 6 and 12 months after treatment a

103 However, narrow-band imaging expertise is required to differentia

104 BACKGROUND & AIMS: Narrow-band imaging is an image-enhanced form of endosco

105 sufficient accuracy for the use of the Exera narrow-band imaging system in the identification of dist

106 ith high-definition white light, followed by narrow-band imaging without magnification and chromoendo

107 The tumor mass was demarcated well on narrow-band imaging, and with a 20-MHz EUS probe, it was

108 ympus America, Inc, Center Valley, PA), with narrow-band imaging, to predict colorectal polyp histolo

109 lar object QSO UM287 at redshift 2.279 using narrow-band imaging.

110 Based on our results, we propose that a narrow-band implementation of the IOC (Intersection of C

111 early time points (4-8 h post-ischemia) in a narrow band in peri-ischemic regions.

112 to the dorsocentral striatum (DCS) and in a narrow band in the far dorsolateral striatum (FDLS).

113 ages, future placode cells are confined to a narrow band in the head ectoderm, the pre-placodal regio

114 R2-immunoreactivity (IR) was restricted to a narrow band in the outer plexiform layer, in which it ap

115 nglion cells, whose dendrites projected to a narrow band in the proximal IPL.

116 rongly coupled surfaces consists of a single narrow band, in contrast to the broad, vibronically stru

117 hP resonances, opening the door to realizing narrow-band infrared sources with tailored radiation pat

118 Each neuron receives many narrow-band inputs from both ears and compares the time

119 Picosecond narrow-band IR excitation of high-frequency bridge vibra

120 ement of 2 to 6 contrasts earlier results of narrow band irradiations (lambda = 334 nm) of matrix-iso

121 es that take advantage of chaos to produce a narrow band laser output.

122 am from this broad-band source is added to a narrow-band laser beam, the intensity of the Raman signa

123 l gas-phase Raman spectroscopy uses a single narrow-band laser to produce signals that are weak, requ

124 Hamilton-Jacobi equations, and fast adaptive narrow band level set methods.

125 ynchronization are effected by the prominent narrow-band LFP oscillations that mark state boundaries.

126 l or photochemical (by absorption of intense narrow band light) means.

127 find potential applications in multi-channel narrow-band long-distance quantum communication.

128 the quadrupole to 300 kHz and using it as a narrow-band mass filter, we show that it is possible to

129 g low sample volumes suitable for broad- and narrow-band mid-infrared (MIR; 2.5-20 mum) sensing appli

130 n independence, wide angle range, broad- and narrow- band modes, multiband perfect and near perfect a

131 opposing flowstreams to focus sample into a narrow band near the inlet of the flow FFF channel.

132 e working range of refractive indices, and a narrow-band near-infrared plasmonic absorber with 100% a

133 ond energy transfer led to highly bright and narrow-band NIR emissions.

134 hearing animals and animals overexposed with narrow band noise and behaviorally tested for tinnitus.

135 t, we studied the effects of noise exposure (narrow band noise, 12 kHz, 120 dB SPL, 1 hour) on the ph

136 A/P boundary where it induces engrailed in a narrow band of A cells.

137 Distinct lack of cell expansion is seen in a narrow band of cells, which forms the boundary region be

138 A narrow band of cortex surrounding the core stained more

139 A narrow band of delayed HFI shapes rate selectivity for d

140 observed as early as the 4-somite stage in a narrow band of ectoderm contiguous to the midbrain neura

141 s a short-range signal that activates only a narrow band of ectodermal cells, even though all ectoder

142 reases their responses to stimulation over a narrow band of frequencies.

143 ions of auditory nerve fibers representing a narrow band of frequencies.

144 receptor potentials and tunes each cell to a narrow band of frequencies.

145 two possible wavevector eigenstates within a narrow band of frequencies: one that supports surface wa

146 ional geometry at end systole.Beginning as a narrow band of fully perfused hypocontractile myocardium

147 observed, and this zone was surrounded by a narrow band of HSV-1-tk-related radioactivity, primarily

148 Modulation of a narrow band of light is demonstrated using plasmonic met

149 mulation of food intake exist primarily in a narrow band of neural tissue within the hypothalamus tha

150 A narrow band of ommatidia in the dorsal periphery of the

151 where sialylated glycans are expressed by a narrow band of pit cells positioned at the boundary betw

152 system can be brought into resonance using a narrow band of vibrational modes, such that the transfer

153 e channel exhibit hole conduction within the narrow band of ~60-125 nm width, whereas the bulk of the

154 In these A- embryos we observe two narrow bands of ectopic apoptosis.

155 tify the adenoviral inactivation rates using narrow bands of irradiation (<1 nm) at 10 nm intervals b

156 focus and separate proteins and lipids into narrow bands on supported lipid bilayers (SLBs).

157 as shown by the breakdown in localization of narrow-band (one-sixth of an octave) noise bursts presen

158 nt in response to white light as compared to narrow-band opsin channelrhodopsin-2, while maintaining

159 (for optogenetic activation of conventional narrow-band opsins) have limited spatial resolution and

160 ing and a liquid-liked phase of high-energy, narrow band oscillation synchronized widely.

161 oscillations, including background activity, narrow-band oscillations in excitatory-inhibitory popula

162 aintains the resource within a comparatively narrow band over a wide range of external perturbations.

163 ognition in raw signals and in signals after narrow band-pass filtering at the highest dominant frequ

164 ser lines along with transmission spectra of narrow band-pass filters at various potentials are used

165 The transmission of narrow band-pass filters was used to compare the respons

166 pectral analysis of AF demonstrated multiple narrow-band peaks with a single dominant peak in all cas

167 n wavelengths, which cannot be achieved with narrow band periodic plasmonic structures.

168 sport model for multiple minima coupled to a narrow-band phonon can transport energy with arbitrarily

169 values well below dark currents obtained in narrow-band photodetectors made with inorganic semicondu

170 At frequencies <40 Hz, narrow-band power decreases occur with movement over wid

171 Moreover, the presence of narrow-band, pulsed, amplitude-modulated radio transmiss

172 Hence, we demonstrate that a narrow-band reconstruction can be achieved for direct wh

173 icular, sharp spectral features arising from narrow-band resonances will tend to appear broader and c

174 mposition can naively separate low-frequency narrow-band rhythms from an asynchronous, broad-spectral

175 response is, thus, locked to a very specific narrow band signal.

176 diation of matrix-isolated saccharin, with a narrow-band source (290 nm), generates a so far unknown

177 However, due to relatively narrow-band sources used in holographic microscopy, conv

178 als that MCS intensification is limited to a narrow band south of the Sahara desert.

179 s allow up to 64% absorbance increase in the narrow band spectral range because of the substrate-medi

180 This narrow band spectral sensing scheme has a very high degr

181 sed on the concept of using a Raman tag as a narrow-band spectroscopic fingerprint.

182 And while the former is characterized by a narrow-band spectrum, the latter, involving almost insta

183 directly activated pyramidal cells exhibited narrow-band spiking centered on a wide range of frequenc

184 Narrow-band stimuli of 1.7 degrees diameter and 200 msec

185 urves show multiple peaks when the signal is narrow-band, such as tones.

186 ices, Josephson junction arrays, and certain narrow band superconductors.

187 n endoscopy with random biopsy compared with narrow band targeted biopsies (mean 8.5 versus 4.7; P <

188 This study assessed whether narrow band targeted biopsies could detect advanced dysp

189 vity was measured using localized, spatially narrow band targets (0.25-8.0 cpd) presented in the cent

190 ivity was measured with spatially localized, narrow-band test patterns at peak spatial frequencies ra

191 efficient ultrathin circular polarizers and narrow-band thermal emitters of circularly polarized rad

192 of frontoparietal networks and suggest that narrow-band theta and to some extent beta rhythmic activ

193 Narrow-band THz radiation can be produced by free-electr

194 ated by a nonlinear oscillator rather than a narrow-band transmission system acting as a filter.

195 ry of 3,5-dimethylisoxazole (1) induced by a narrow-band tunable UV laser was studied using low-tempe

196 for the treatment of psoriasis in children, narrow band ultraviolet B phototherapy for atopic dermat

197 Narrow-band ultraviolet B (UVB) is an effective treatmen

198 mps (the broad-band ultraviolet B TL-12, the narrow-band ultraviolet B TL-01 and an ultraviolet AI so

199 structural rearrangement when subjected to a narrow-band ultraviolet irradiation.

200 REM-1 expression was reduced with successful narrow band UVB (NB-UVB), etanercept, and anti-IL-17 tre

201 follicle and the epidermis of untreated and narrow band UVB (NBUVB)-treated human vitiligo skin.

202 gest stimulus for vitiligo repigmentation is narrow-band UVB (NBUVB), but how the hair follicle melan

203 n extent of disease after 24 treatments with narrow-band UVB and UVA were 6.7% (1.5 to 11.9) and -1.0

204 over 24 treatments in patients who received narrow-band UVB and UVA, respectively, were 9.4 points (

205 l vitamin D3 (n = 60) and those who received narrow-band UVB exposure (n = 58) </=6 mo.There was no d

206 Narrow-band UVB is an effective adjunctive treatment for

207 epidermal cells from 12 patients undergoing narrow-band UVB phototherapy and 12 corresponding health

208 Narrow-band UVB radiation (NB-UVB) therapy offers a well

209 26 patients were randomly assigned narrow-band UVB, 24 were assigned UVA, and 23 visible fl

210 did a randomised controlled trial to compare narrow-band UVB, UVA, and visible light phototherapy as

211 mise was tested in the current study using a narrow-band 'water balance index' (WABI), which is based

212 aneous oscillations persisted, becoming very narrow-band, when the hair bundle was loaded with a tect

213 re large on the energy scale of the expected narrow band width.

214 '-dinitrotolane (2-) radical anions show the narrow band widths and partially resolved vibrational st

215 SDS-polyacrylamide gel electrophoresis as a narrow band with an average apparent molecular mass of 3

216 esolution X-ray absorption spectroscopy with narrow-band X-ray emission detection, supported by densi