ライフサイエンスコーパス: optical fibre

1 he distal end of a 150 um diameter multicore optical fibre.

2 and secure keys simultaneously over 25 km of optical fibre.

3 s within infrared light-transmitting silicon optical fibre.

4 along a 10 km length of normally dispersive optical fibre.

5 oadening when propagating through lengths of optical fibre.

6 on a long-period grating (LPG) induced in an optical fibre.

7 teracting with the optical signal within the optical fibre.

8 esigned to mode match a standard single mode optical fibre.

9 und in the homogeneous core of a single-mode optical fibre.

10 hoton detection of the emitted light over an optical fibre.

11 ransmitted 5km over a graded-index, few-mode optical fibre.

12 r decoherence with distance than light in an optical fibre.

13 icon-on-insulator technology and single-mode optical fibre.

14 ring laser cavity was formed by an 8-m-long optical fibre.

15 rected to another site through 100 metres of optical fibre.

16 the window of minimal absorption in current optical fibres.

17 7) that allows long-distance transmission in optical fibres.

18 g due to polarisation-altering properties of optical fibres.

19 localized polarization knots in conventional optical fibres.

20 high propagation loss and depolarization in optical fibres.

21 matter interaction and channel emission into optical fibres.

22 of radii comparable to that of conventional optical fibres.

23 cases is provided by the use of single-mode optical fibres.

24 lly confined waves similar to those found in optical fibres.

25 e connected by single-photon transmission in optical fibres.

26 enhanced design freedom compared to standard optical fibres.

27 lapped section of standard telecommunication optical fibre, allowing for potential multiplexing and i

28 that distributed acoustic sensing (DAS) with optical fibres allows us to identify volcanic events rem

29 ementation utilizes polarization-maintaining optical fibre and photons with a wavelength of 850 nm.

30 utilise the parallel processing potential of optical fibres and amplifiers.

31 r waves in narrow canals, as light pulses in optical fibres and as quantum mechanical matter waves in

32 es include singularities capable of damaging optical fibres and lasers in nonlinear optical systems,

33 Unlike in optical fibres and semiconductor waveguides, we observe

34 We report the fabrication of SiGe-core optical fibres, and the use of CO2 laser irradiation to

35 e show that localized states of a disordered optical fibre are single mode: the transmission channels

36 bution of water in the glass rods from which optical fibres are drawn and explain the distribution qu

37 cal limits to the information capacity of an optical fibre arising from these nonlinearities.

38 to infrared is coupled onto the chip via an optical-fibre array, creating an inherently stable optic

39 re we propose submarine cables with embedded optical fibres as a potential solution to fill this obse

40 ctional ultrasound beam perpendicular to the optical fibre axis.

41 ial to replace highly power-hungry intrusive optical fibre based endoscopes and to extend the range o

42 l/physical mechanism of an enhanced economic optical fibre based gas sensor and illustrates it for di

43 ion of volatile organic compounds via simple optical fibre based sensing configuration.

44 We examine the lasing dynamics in optical fibre-based coupled cavities more than a kilomet

45 Using dielectric sensors and an optical fibre-based readout ensures minimal field pertur

46 tal demonstration of temporal cloaking in an optical fibre-based system by applying concepts from the

47 mum) and thus are ideal for inexpensive all-optical fibre-based THz time-domain spectroscopy and ima

48 waveguide attached to the tapered tip of an optical fibre can guide visible light into intracellular

49 Light propagation through an optical fibre causes a long, non-resonant (true) time de

50 Propagation time through an optical fibre changes with the environment, e.g., a chan

51 It makes use of a standard silica optical fibre, combined with a tilted input laser beam.

52 evable transmission capacity of conventional optical fibre communication systems is limited by nonlin

53 overy by Kao and Hockman that ultra-low-loss optical fibres could be made from pure silica through th

54 gap, and utilise a recent 12-h observational optical fibre data set from a fast-flowing tidal channel

55 a 1470 nm diode laser using an intralesional optical fibre delivery device in the treatment of hypert

56 Optical fibres designed to support multiple transverse m

57 When an optical pulse propagates along an optical fibre, different wavelengths travel at different

58 n nanosphere fabrication process based on an optical fibre drawing technique.

59 In contrast, optical-fibre drawing from a macroscopic preformed rod i

60 on a flexible fibre bundle of six multimode optical fibres, each terminated with a distal polariser

61 onductivity and large intrinsic bandwidth of optical fibre enables the efficient and massively multip

62 men for holding the imaging probe, and three optical fibres equally and spirally distributed on the o

63 )) delivered to the sensory epithelium by an optical fibre evoked profound changes in phasic and toni

64 es lag far behind the corresponding rates of optical fibre, featuring attenuation many orders larger.

65 ficient coupling between a silicon NW and an optical fibre for both the polarisations.

66 disordered light within a standard multimode optical fibre for lensless microscopy and optical mode c

67 linear nature of the propagation of light in optical fibre has made these limits difficult to elucida

68 or over 50 years, pure or doped silica glass optical fibres have been an unrivalled platform for the

69 Semiconductor-core optical fibres have potential applications in photonics

70 High-speed broadband services require optical fibres in access networks, in which multiple sub

71 ted via invasive brain implants and tethered optical fibres in restrained animals.

72 ive optics to achieve focusing in disordered optical fibres in the Anderson regime.

73 g padeliporfin intravenously over 10 min and optical fibres inserted into the prostate to cover the d

74 rier would enable their transmission through optical fibres instead of through copper wires, drastica

75 An important group of nonlinear processes in optical fibre involves the mixing of four waves due to t

76 h information can be communicated through an optical fibre is a key element in the 'information revol

77 Our understanding of what an optical fibre is and what it does is changing because of

78 cal power from a silicon nanowire (NW) to an optical fibre is challenging for both the quasi-TE and q

79 t quality obtained in the polymer disordered optical fibre is comparable to or better than some of th

80 e direct transmission of an image through an optical fibre is difficult because spatial information i

81 The classical purpose of optical fibres is delivery of either optical power, as f

82 report on the design and drawing of a hollow optical fibre lined with an interior omnidirectional die

83 ng theoretical developments with an improved optical fibre link generating entanglement between two t

84 racterisation of the noise in the lasers and optical fibre link network over different timescales, we

85 w the short-term instability of the complete optical fibre link network to be directly observed witho

86 over the longest ever reported metrological optical fibre link network, measuring 2220 km in length,

87 An optical fibre long period grating (LPG), modified with a

88 Therefore, standard optical fibres may be used for generating spiral beams i

89 n optical system, based on a microstructured optical fibre, near the threshold of soliton-fission sup

90 ngths to take advantage of both the low-loss optical fibre network and the established technologies o

91 ty and compatibility with classical coherent optical fibre networks.

92 of a quantum repeater, akin to repeaters in optical fibre networks.

93 ractive means for securing communications in optical fibre networks.

94 uced optical transmission when combined with optical fibres of low refractive index.

95 Hollow optical fibres offer the potential to minimize the depen

96 Imaging through a single optical fibre offers attractive possibilities in many ap

97 The thin and flexible nature of optical fibres often makes them the ideal technology to

98 f light vortex formation in micro-structured optical fibres on the energy dissipation.

99 idly and efficiently between locations using optical fibres or microwave cables.

100 iverse physical settings, including liquids, optical fibres, plasmas and condensed matter.

101 tical modulator developed on a side-polished optical fibre platform.

102 When coupled to a plastic optical fibre (POF) plasmonic platform, the analyte-indu

103 By embedding a hollow-core optical fibre probe inside a lab-scale pouch cell, we de

104 The small-diameter optical fibre probe is electrically passive, immune to e

105 An optical fibre probe is used to illuminate the lip and ac

106 Its successful implementation in disordered optical fibres recently resulted in the propagation of l

107 Conventional solid-core optical fibres require highly transparent materials.

108 Significant effort in optical-fibre research has been put in recent years into

109 e from leaky modes along a multimode tapered optical fibre, resulting in spectrally distinguishable s

110 n, these results highlight the potential for optical fibre sensing of turbulence, and call for a targ

111 Existing commercial optical fibre sensing systems used in integrated microfl

112 Optical fibre surface plasmon resonance (SPR) based sens

113 ogy, we perform real-time measurements in an optical fibre system of the unstable breakup of a contin

114 uses a mechanical resonator coupled with the optical fibre system to produce periodic and chaotic opt

115 optical transducer in the probe comprised an optical fibre that delivered pulsed excitation light to

116 s is the achievement of the clarity limit in optical fibres--that is, ensuring that the SiO2 glass fr

117 able long-distance transmission of data over optical fibres; they also ensure narrow spot-size laser

118 hannelrhodopsin-2 to Hcrt cells and using an optical fibre to deliver light deep in the brain, direct

119 Here we introduce a photonic link using an optical fibre to guide modulated laser light from room t

120 Having been observed in systems ranging from optical fibres to mode-locked lasers, they provide insig

121 Optical fibre underpins the global communications infras

122 n demonstrated in a laboratory over a coiled optical fibre up to 404 kilometres long(4-7).

123 A section of optical fibre was integrated into an active fibre ring c

124 A 15 m long flexible PMMA optical fibre waveguide is butt coupled to an ABS plasti

125 ntillator with a photodetector via a polymer optical fibre waveguide, allowing for "intrinsically saf

126 tocol in a cryogenically cooled erbium-doped optical fibre, we report the quantum storage of heralded

127 of loss to 0.037 dB m(-1), close to that of optical fibres when first considered a viable technology

128 e Fabry-Perot cavity at the distal end of an optical fibre, which was interrogated with a tuneable co

129 In contrast to conventional optical fibres, which must be removed from the body soon

130 A sensor consisting of an optical fibre with the exposed tip coated with the polyo

131 observe how sensing measurements on separate optical fibres within the same cable can lead to signifi

132 hich are conveniently handled by mirrors and optical fibres without loss of coherence, atoms lose the