ライフサイエンスコーパス: short wave

1 focus on random waves including wind-induced short waves and long waves so as to gain further insight

2 Gross short-wave and long-wave radiative fluxes were stable ac

3 Recent progress in high power ultrafast short-wave and mid-wave infrared lasers has enabled gas-

4 T, and hyper-autofluorescent spots with FAF (short-wave blue/green).

5 We recently showed that high-intensity short-wave capacitively coupled radiofrequency (RF) elec

6 Mean +/- standard deviation values of short-wave cloud free clear sky DRF exerted by total aer

7 ion to boost the signal levels in optical or short wave communications.

8 Both long- and short-wave components of short-term cloud feedback are a

9 Short wave cone function was more preserved than middle

10 d transgenic mice with rods expressing mouse short-wave cone opsin (S-opsin) to test whether cone pig

11 biophysical and signaling properties of the short-wave cone pigment (S-pigment) contribute to the sp

12 ration characterized by increased numbers of short-wave cones.

13 cause much larger seabed responses than the short waves (eight times larger in our flume tests).

14 receptors, it filters significant amounts of short-wave energy.

15 ere characterized clinically and imaged with short-wave fundus autofluorescence (SW-FAF), spectral-do

16 mensions of the hyperautofluorescent ring on short-wave fundus autofluorescence (SW-FAF).

17 ary long waves that were induced by incident short wave groups affected the seabed responses.

18 ate a number of different wavelengths in the short-wave infra-red (SWIR) that provide accurate fits t

19 ndium arsenide (InAs) CQDs provide access to short-wave infrared (IR) wavelengths for three-dimension

20 solution by allowing near-infrared (NIR) or short-wave infrared (SWIR) activation within biological

21 interest as a material for 1550 nm low-noise short-wave infrared (SWIR) avalanche photodiodes (APDs)

22 ht from the microresonator is collected by a short-wave infrared (SWIR) camera.

23 Materials with short-wave infrared (SWIR) emission are promising contra

24 A new method is described for measuring the short-wave infrared (SWIR) emission wavelengths of numer

25 ystem to measure nutrient components using a Short-Wave Infrared (SWIR) Hyperspectral camera and Part

26 Replacing optical probes with contactless short-wave infrared (SWIR) hyperspectral cameras allows

27 imulations to investigate the interaction of short-wave infrared (SWIR) light with vascular tissue as

28 l administration for near-infrared (NIR) and short-wave infrared (SWIR) optical imaging.

29 Semiconducting absorbers in high-performance short-wave infrared (SWIR) photodetectors and imaging se

30 Time-resolved measurements of short-wave infrared (SWIR) photoluminescence on the subm

31 lications demand operation across visible to short-wave infrared (SWIR) range.

32 l spectral regions or wavelengths within the short-wave infrared (SWIR) region that can be used for C

33 ission at 718 nm and an emission tail in the short-wave infrared (SWIR) region, allowing deep-penetra

34 The study is based on ground-based remote short-wave infrared (SWIR) spectral imaging and remote R

35 polarization properties of materials in the short-wave infrared (SWIR) spectrum using a compact divi

36 ions centered in the near-infrared (NIR) and short-wave infrared (SWIR) wavelength regimes require hi

37 While wavelengths in the short-wave infrared (SWIR) window (typically, 1700-3000

38 rated circuits in the underexplored range of short-wave infrared (SWIR).

39 -photon avalanche diode (SPAD) detectors for short-wave infrared operation.

40 of ultraviolet, visible, near-infrared, and short-wave infrared probe pulses, we capture the spectra

41 Here, we employ sub-two-cycle visible to short-wave infrared pump-probe spectroscopy and ab initi

42 an spectroscopy, visible, near infrared, and short-wave infrared reflectance spectroscopy, and X-ray

43 icron-resolution imaging capabilities in the short-wave infrared region, specifically in response to

44 ution (30 m pixels) satellites equipped with short-wave infrared sensors (SWIRS) were conducted.

45 sing using passive solar illumination in the Short-Wave Infrared spectrum is exposed to strong intens

46 Annual composites were generated using the short-wave infrared thresholding technique from June to

47 ed using a hyperspectral camera sensitive to short-wave infrared wavelengths in the range 949-2472 nm

48 In the short-wave infrared, semiconductor-based single-photon d

49 at 10 Hz , simultaneously in the visible and short-wave infrared, using an efficient computer algorit

50 Also, new functional tests, including short-wave-length automated perimetry, may provide bette

51 the retina from damage by absorbing actinic short-wave light (analogous to internal sunglasses) or b

52 e shown that screening the foveal cones from short-wave light does, in fact, result in improvements i

53 overs the visible range (400-780 nm) and the short-wave near infrared (780-1100 nm).

54 copy system with light sources of visible to short-wave near infrared (Vis-SWNIR, 395-940 nm) for det

55 Canonical responses are composed of a short wave of plasmablasts (PBs) arising from EF sites,

56 We have ascertained the sequence of the short-wave pigment and confirmed its violet sensitivity

57 At the tree sites, the biases in short-wave radiation and humidity strongly influenced th

58 signal for a few climate variables, such as short-wave radiation flux in the winter, but these signa

59 neously repurposing captured ultraviolet and short-wave radiation for melt generation.

60 -air, often called 'cold pools', and reduced short-wave radiation, which makes the water colder and h

61 The resulting change in the short-wave radiative flux at the top of the atmosphere w

62 hly ordered chemical patterns, consisting of short wave segments regularly separated by gaps, form a

63 chnique that employs stimuli visible only to short-wave-sensitive (S) cones.

64 fate determination, especially as regards to short-wave-sensitive (S) versus medium-wave-sensitive (M

65 lliculus receives no direct projections from short-wave-sensitive cones (S cones), and, consistent wi

66 The two short-wave-sensitive genes, SWS1 and SWS2, were lost in

67 tral sensitivity, a Val86Phe causing a 60 nm short-wave shift into the ultraviolet and a Val86Tyr sub

68 oth the rod and cone visual pigments display short wave shifts as depth increases.

69 e flux of TFA, PFPrA, and PFBA with downward short-wave solar radiation was observed.

70 sides their direct and indirect reduction of short-wave solar radiation, the increased cloudiness and

71 us effects associated with the aberration of short-wave (SW) light.

72 Cone short-wave (SWS1) visual pigments can be divided into tw

73 hough they had smaller wave heights than the short waves, the long waves were found to contribute muc

74 sparent up to 25 mum, making them useful for short - wave to long - wave infrared applications in bot

75 h doses of medium wave ultraviolet (UVB) and short wave ultraviolet (UVC) light not only produce cycl

76 It was found that short-wave ultraviolet radiation (UVC) reduced up to 50%

77 with large second-order nonlinearity for the short-wave ultraviolet spectral region (lambda(PM) <=266

78 Cross-linking with short-wave UV light of the complex yielded similar overa

79 centrations of [alpha-32P]-8-N3-ADP-HPD with short-wave UV light resulted in the covalent incorporati

80 e of IL-6 from human keratinocytes following short-wave UVC and UVB irradiation is mediated by DNA da

81 rmation in DNA have often used high doses of short-wave (UVC) irradiation.