ライフサイエンスコーパス: birefringent

1 e presence of the RD effect, the SOIs in the birefringent 2D-OSC microcavity result in a controllable

2 ncoherent interferometers made from uniaxial birefringent alpha-barium borate (alpha-BBO) or calcite

3 ne specific lysosome-related organelles with birefringent and autofluorescent contents.

4 matrix in the transfected cultures was less birefringent and contained numerous truncated collagen f

5 While ferroelectrics are birefringent and non-linear optically transparent materi

6 Birefringent anisotropic droplets ("maltese crosses") wi

7 o stabilizes the smectic Z(A), an additional birefringent antiferroelectric phase having the director

8 n detectors, the lenses of which are made of birefringent aragonite.

9 The physiologic relevance was supported by birefringent CC structures adjacent to monocytes (CD14),

10 hat one of the two refractive indices of the birefringent chiton lens places a focused image on the r

11 dvantage of the optical properties of a thin birefringent coating on the surface of opaque, notched c

12 In DM rat bladders there was reduced birefringent collagen between detrusor muscle bundles, a

13 by picrosirius red staining and analyses of birefringent collagen fibrillar deposits.

14 ltaneously rotates hundreds of silica-coated birefringent colloids.

15 Birefringent Congo Red staining was observed in the cort

16 rotein aggregation that showed protofibrils, birefringent Congo Red staining, and Abeta/alphaB-crysta

17 sed with enhanced Abeta immunoreactivity and birefringent Congo Red staining.

18 onfirmed by the demonstration that the green birefringent congophilic deposits in the 7 meniscus samp

19 le duck- or goose-derived foie gras contains birefringent congophilic fibrillar material composed of

20 ranules are lysosome-related organelles with birefringent contents.

21 The birefringent cornea and a corneal compensator within the

22 ng polarimetric measurements obtained from a birefringent crystal rotated to various angles, as compa

23 Crystal cells, each containing a birefringent crystal, are arrayed around the rim.

24 We have applied the method to anomalously birefringent crystals of 1,8-dihydroxyanthraquinone that

25 ysico-chemical analysis of the needle-shaped birefringent crystals of the precipitate from the supers

26 rization imaging rely on strong dichroism of birefringent crystals or artificially fabricated structu

27 ds, mostly triglycerides, and these can form birefringent crystals upon drying, leading to a false di

28 t compose and/or facilitate the formation of birefringent crystals within the gut granule.

29 es, diagnosing various diseases, imaging low birefringent crystals, and creating new methods for cont

30 Ps), traditionally constructed from multiple birefringent crystals, can modulate light polarization a

31 -QWPs requires the incorporation of multiple birefringent crystals, which complicates the manufacturi

32 mage), and wide applicability across various birefringent crystals.

33 d by the fast and slow axis of stacked multi-birefringent crystals.

34 invisibility cloak constructed from natural birefringent crystals.

35 ormation rate and volume distribution of the birefringent domains of hemoglobin S fibers.

36 Here, we introduce a birefringent double-shear experiment that enables sustai

37 We send single photons through a birefringent double-slit apparatus and use a linear arra

38 Birefringent dust density, indicating retained silica/si

39 FINCH microscopy incorporating these birefringent elements and high-numerical-aperture oil im

40 cluding the formation of spatially patterned birefringent elements and surface-active topographical f

41 le of light illuminating the specimen causes birefringent elements to oscillate in brightness.

42 assing the photons through thick, adjustable birefringent elements.

43 s more birefringent than the other, the less birefringent fiber lengthened with anaphase spindle elon

44 We confirmed that birefringent fibers are actin-based using conventional f

45 iber net-anomalous-dispersion cavity through birefringent filter management.

46 lay with exquisite resolution and definition birefringent fine structures, such as filaments and memb

47 s placed in distilled water burst into small birefringent globules, which aggregated into larger clus

48 rhabditis elegans embryos contain prominent, birefringent gut granules that we show are lysosome-rela

49 The previously colorless birefringent images of organelles, cells, and tissues be

50 s allows for the real-time display of linear birefringent images which serve as guidance for the oper

51 the resulting films were significantly less birefringent, implying that intact flagellin adsorbs on

52 Intranuclear birefringent inclusions (IBI) found in various cell type

53 The instrument, based on a common-path birefringent interferometer, combines high spatial (~1 m

54 c lamina, patchy choroidal inflammation, and birefringent intravascular foreign bodies.

55 arly woven material has long-range order, is birefringent, is twice as stiff as the constituent linea

56 l the way to a centrosome, as their strongly birefringent kinetochore fibers shortened.

57 eir condensates in microcavities composed of birefringent lead halide perovskite single crystals.

58 ssolve in chlorosulfonic acid (CSA) and form birefringent liquid crystal domains at concentrations ab

59 ls of polymer networks, these membrane-based birefringent liquid crystalline biogels, labeled L-alpha

60 gical transition from liposomes to optically birefringent liquid-crystalline condensed globules.

61 ligned nanoscale fibres and forms a strongly birefringent liquid.

62 measure the in situ burden of pigmented and birefringent lung particulates in 24 veterans with DDLD,

63 es revealed excellent contrast between lowly birefringent malignant regions, and stromal tissue, whic

64 Pb3O2Cl2 is a birefringent material due to its anisotropic crystal str

65 rp-4(-) embryos show a delayed appearance of birefringent material in the gut granule but otherwise a

66 ts in parallel to MRP-4 for the formation of birefringent material in the gut granule.

67 pgp-2(-) embryos mislocalize birefringent material into the intestinal lumen and are

68 that its site of action in the formation of birefringent material may not be limited to just the gut

69 red for the extracellular mislocalization of birefringent material, body-length retraction, and NaCl

70 , as identified by Congo red-positive, green birefringent material, is achieved by providing cultures

71 sis identified strong linear polarization in birefringent materials and minimal polarization in isotr

72 ifacts, and, occasionally, some unidentified birefringent materials may be seen in synovial fluids in

73 a is treated as a homogeneous biaxial linear birefringent medium in which the values of the binormal

74 larization multiplexed approach leveraging a birefringent metasurface is also demonstrated as a singl

75 and time, digital holography, and large-area birefringent metasurfaces.

76 rocedure for their implementation using form-birefringent metasurfaces.

77 ultaneous optical trapping and rotation of a birefringent microparticle in vacuum using a circularly

78 We report the in vitro formation of birefringent microribbon structures that were generated

79 oprotractor and torsion balance using highly birefringent microspheres to directly and simultaneously

80 d light microscopy revealed large amounts of birefringent mineral dust particles consistent with sili

81 oducing either an isotropic damage-like or a birefringent nanograting structure.

82 r-switching systems, refraction of assembled birefringent nanostructures, and emission of photolumine

83 cle structure: by polarized light microscopy birefringent needles are found at the ends of muscle cel

84 In unc-96 mutants, the birefringent needles, which contain both UNC-98 and para

85 myofibrillar organization and characteristic birefringent "needles." By immunofluorescent staining of

86 d and high-resolution holographic imaging of birefringent objects with a color contrast similar to th

87 near phase matching is achieved using either birefringent or periodically poled nonlinear crystals, w

88 an recover this information, but reliance on birefringent or rotating optical elements limits their w

89 tonic modes of a planar cavity, containing a birefringent organic microcrystal (perylene) and exhibit

90 ombohedral-stacked MoS(2) waveguides support birefringent phase matching, demonstrating the material'

91 ll quite challenging to directly measure the birefringent phase retardation introduced by metasurface

92 lecule, 5'DSCG-diviol, that exhibits a large birefringent phase, and we show that the formation of th

93 We found that the birefringent properties can be successfully visualized b

94 combination of substantial piezoelectric and birefringent properties, yet its lack of optical activit

95 s by optical microscopy is enhanced by their birefringent properties.

96 sensitive OCT images simultaneously revealed birefringent regions within the dermis corresponding to

97 The corneal birefringent retardation measured here is comparable to

98 When imaged by the polarimeter, birefringent retinal nerve fiber bundles appeared as eit

99 A birefringent retinal structure (RNFL or macula) was repr

100 ference colors are widely used for analyzing birefringent samples in mineralogy.

101 e ethynylphenyl alkoxy 21,23-dithiaporphyin, birefringent, soft-crystalline-like domains were observe

102 ith the hue determined by orientation of the birefringent structure.

103 Possible birefringent structures include axonal membranes, microt

104 the study of biological specimens with weak birefringent structures, diagnosing various diseases, im

105 miconductors wafers, specimens on opaque and birefringent substrates, cells in microplates, and bulk

106 powerful optical techniques that require non-birefringent substrates.

107 otropic (I) melt in the form of spindle-like birefringent tactoids.

108 If one fiber of a merotelic was more birefringent than the other, the less birefringent fiber

109 using chemical vapor deposition (CVD) on non-birefringent thermal oxide on a silicon wafer; it was fo

110 imaging modality that can be used to assess birefringent tissues including collagen.

111 nteracting roles of wavefront distortion and birefringent walk-off, respectively.

112 es and vascular deposits, some of which were birefringent with Congo Red.