SAE technical paper series, Volume 941057.
The application of polymer optical fibers (POF) in automobiles for data transmission is interesting because of their well known positive aspects. The...
Engine lubricants | Gasoline | Failure modes and effects analysis | Glass fibers
Engine lubricants | Gasoline | Failure modes and effects analysis | Glass fibers
eJournal
Journal of Lightwave Technology, ISSN 0733-8724, 06/2009, Volume 27, Issue 11, pp. 1571 - 1579
The fabrication, materials, properties and applications of microstructured polymer optical fibers are reviewed. Microstructured polymer optical fibers formed...
Optical fibers | Biomedical optical imaging | Preforms | Photonic crystal fibers | microstructured optical fibers | Physics | photonic bandgaps | Optical polymers | Silicon compounds | Optical device fabrication | Fiber gratings | Optical materials | microstructured polymer optical fibers | polymers | Optical sensors | Microstructured polymer optical fibers | Photonic bandgaps | Microstructured optical fibers | Polymers | BRAGG GRATINGS | MODE | photonic crystal fibers | TELECOMMUNICATIONS | ENGINEERING, ELECTRICAL & ELECTRONIC | TERAHERTZ RADIATION | RAMAN-SCATTERING | TRANSMISSION | PREFORMS | POWER-FLOW | FABRICATION | OPTICS | PROPAGATION | HIGH NUMERICAL APERTURE
Optical fibers | Biomedical optical imaging | Preforms | Photonic crystal fibers | microstructured optical fibers | Physics | photonic bandgaps | Optical polymers | Silicon compounds | Optical device fabrication | Fiber gratings | Optical materials | microstructured polymer optical fibers | polymers | Optical sensors | Microstructured polymer optical fibers | Photonic bandgaps | Microstructured optical fibers | Polymers | BRAGG GRATINGS | MODE | photonic crystal fibers | TELECOMMUNICATIONS | ENGINEERING, ELECTRICAL & ELECTRONIC | TERAHERTZ RADIATION | RAMAN-SCATTERING | TRANSMISSION | PREFORMS | POWER-FLOW | FABRICATION | OPTICS | PROPAGATION | HIGH NUMERICAL APERTURE
Journal Article
Optics Express, ISSN 1094-4087, 02/2013, Volume 21, Issue 3, pp. 2642 - 2656
Recently, mode instability was observed in optical fiber lasers at high powers, severely limiting power scaling for single-mode outputs. Some progress has been...
MODE-INSTABILITIES | ORIGIN | IMPACT | AMPLIFIERS | POWER | TIME | OPTICS | LASER SYSTEMS | LIQUIDS | Models, Theoretical | Computer Simulation | Light | Fiber Optic Technology - instrumentation | Scattering, Radiation | Hot Temperature | Nonlinear Dynamics | Equipment Design | Equipment Failure Analysis
MODE-INSTABILITIES | ORIGIN | IMPACT | AMPLIFIERS | POWER | TIME | OPTICS | LASER SYSTEMS | LIQUIDS | Models, Theoretical | Computer Simulation | Light | Fiber Optic Technology - instrumentation | Scattering, Radiation | Hot Temperature | Nonlinear Dynamics | Equipment Design | Equipment Failure Analysis
Journal Article
Optics Express, ISSN 1094-4087, 04/2015, Volume 23, Issue 7, pp. 9074 - 9085
Internal physical structure can drastically modify the properties of waveguides: photonic crystal fibers are able to confine light inside a hollow air core by...
BESSEL-FUNCTIONS | EQUATIONS | MODES | OPTICS | HYPERLENS | Physics - Optics
BESSEL-FUNCTIONS | EQUATIONS | MODES | OPTICS | HYPERLENS | Physics - Optics
Journal Article
Optics Express, ISSN 1094-4087, 08/2016, Volume 24, Issue 17, pp. 19841 - 19852
Average powers from fiber lasers have reached the point that a quantitative understanding of thermal lensing and its impact on transverse mode instability is...
THRESHOLD | AMPLIFIERS | LASERS | MODE-INSTABILITY | OPTICS | HIGH AVERAGE POWER
THRESHOLD | AMPLIFIERS | LASERS | MODE-INSTABILITY | OPTICS | HIGH AVERAGE POWER
Journal Article
Optics Letters, ISSN 0146-9592, 08/2009, Volume 34, Issue 16, pp. 2525 - 2527
Journal Article
7.
Full Text
Radiation Effects on Silica-Based Optical Fibers: Recent Advances and Future Challenges
IEEE Transactions on Nuclear Science, ISSN 0018-9499, 06/2013, Volume 60, Issue 3, pp. 2015 - 2036
In this review paper, we present radiation effects on silica-based optical fibers. We first describe the mechanisms inducing microscopic and macroscopic...
Optical fibers | Radiation effects | fiber sensors | LHC | silica | LMJ | color centers | radiation induced attenuation | space | Optical fiber sensors | Absorption | luminescence | Optical attenuators | ITER | Optical refraction | optical fibers | radiation effects | ERBIUM-DOPED FIBER | INDUCED ABSORPTION-BANDS | ENGINEERING, ELECTRICAL & ELECTRONIC | PULSED-X-RAY | GAMMA-RADIATION | NUCLEAR SCIENCE & TECHNOLOGY | CORE FIBERS | SINGLE-MODE FIBER | PURE-SILICA | INDUCED ATTENUATION | INDUCED POINT-DEFECTS | DOSE-RATE | Photonic | Engineering Sciences | Optics
Optical fibers | Radiation effects | fiber sensors | LHC | silica | LMJ | color centers | radiation induced attenuation | space | Optical fiber sensors | Absorption | luminescence | Optical attenuators | ITER | Optical refraction | optical fibers | radiation effects | ERBIUM-DOPED FIBER | INDUCED ABSORPTION-BANDS | ENGINEERING, ELECTRICAL & ELECTRONIC | PULSED-X-RAY | GAMMA-RADIATION | NUCLEAR SCIENCE & TECHNOLOGY | CORE FIBERS | SINGLE-MODE FIBER | PURE-SILICA | INDUCED ATTENUATION | INDUCED POINT-DEFECTS | DOSE-RATE | Photonic | Engineering Sciences | Optics
Journal Article
IEEE Sensors Journal, ISSN 1530-437X, 10/2012, Volume 12, Issue 10, pp. 3047 - 3053
With the increasing interest in fiber sensors based on polymer optical fibers, it becomes fundamental to determine the real applicability and reliability of...
Young's modulus | Optical fiber sensors | polymer optical fibers (POFs) | Mechanical factors | Dynamic mechanical analysis (DMA) | Polymers | Optical polymers | INSTRUMENTS & INSTRUMENTATION | PHYSICS, APPLIED | TOPAS | BRAGG GRATINGS | BEHAVIOR | FABRICATION | FEW-MODE | ENGINEERING, ELECTRICAL & ELECTRONIC
Young's modulus | Optical fiber sensors | polymer optical fibers (POFs) | Mechanical factors | Dynamic mechanical analysis (DMA) | Polymers | Optical polymers | INSTRUMENTS & INSTRUMENTATION | PHYSICS, APPLIED | TOPAS | BRAGG GRATINGS | BEHAVIOR | FABRICATION | FEW-MODE | ENGINEERING, ELECTRICAL & ELECTRONIC
Journal Article
Optics Letters, ISSN 0146-9592, 08/2016, Volume 41, Issue 15, pp. 3535 - 3538
Journal Article
Physical Review A - Atomic, Molecular, and Optical Physics, ISSN 1050-2947, 09/2015, Volume 92, Issue 3
We have studied optical activity in optical fibers that possess multihelical distribution of the refractive index profile. We have demonstrated through an...
GRATINGS | SINGLE-MODE FIBERS | VORTICES | SYMMETRY | ORBITAL-ANGULAR-MOMENTUM | BEAMS | LIGHT | PHYSICS, ATOMIC, MOLECULAR & CHEMICAL | PHOTONIC CRYSTAL FIBER | BIREFRINGENCE | OPTICS | BERRY TOPOLOGICAL PHASE
GRATINGS | SINGLE-MODE FIBERS | VORTICES | SYMMETRY | ORBITAL-ANGULAR-MOMENTUM | BEAMS | LIGHT | PHYSICS, ATOMIC, MOLECULAR & CHEMICAL | PHOTONIC CRYSTAL FIBER | BIREFRINGENCE | OPTICS | BERRY TOPOLOGICAL PHASE
Journal Article
IEEE Journal of Quantum Electronics, ISSN 0018-9197, 04/2018, Volume 54, Issue 2, pp. 1 - 7
Optical full-vectorial modes have closely attracted much attention because of their unique optical features and thus may develop the fundamental researches and...
Couplings | Optical fiber polarization | directional coupling | fiber gratings | Optical polarization | Full-vectorial modes | Crosstalk | Optical refraction | DESIGN | PHYSICS, APPLIED | CONVERSION | BEAMS | VORTEX | MULTIPLEXER | ENGINEERING, ELECTRICAL & ELECTRONIC | GRATINGS | GENERATION | OPTICS | ANGULAR-MOMENTUM MODES
Couplings | Optical fiber polarization | directional coupling | fiber gratings | Optical polarization | Full-vectorial modes | Crosstalk | Optical refraction | DESIGN | PHYSICS, APPLIED | CONVERSION | BEAMS | VORTEX | MULTIPLEXER | ENGINEERING, ELECTRICAL & ELECTRONIC | GRATINGS | GENERATION | OPTICS | ANGULAR-MOMENTUM MODES
Journal Article
JOURNAL OF THE OPTICAL SOCIETY OF AMERICA B-OPTICAL PHYSICS, ISSN 0740-3224, 08/2007, Volume 24, Issue 8, pp. 1689 - 1697
Leakage channel fibers, where few air holes form a core, can be precisely engineered to create large leakage loss for higher-order modes, while maintaining...
DESIGN | AMPLIFIER | MODES | BENDING LOSS | AREA | PHOTONIC-CRYSTAL FIBERS | OPTICS | SUPPRESSION | PROPAGATION
DESIGN | AMPLIFIER | MODES | BENDING LOSS | AREA | PHOTONIC-CRYSTAL FIBERS | OPTICS | SUPPRESSION | PROPAGATION
Journal Article
Nanophotonics, ISSN 2192-8606, 12/2013, Volume 2, Issue 5-6, pp. 393 - 406
This review is concerned with nanoscale effects in highly transparent dielectric photonic structures fabricated from optical fibers. In contrast to those in...
Nanophotonics | Microresonator | Microfiber | microresonator | microfiber | PHYSICS, APPLIED | MATERIALS SCIENCE, MULTIDISCIPLINARY | LIGHT | MICROFIBER LOOP RESONATOR | NANOSCIENCE & NANOTECHNOLOGY | NANOSCALE AXIAL PHOTONICS | nanophotonics | WHISPERING-GALLERY MODES | MICRORESONATOR CHAINS | DIAMETER MEASUREMENT | WAVE-GUIDES | REFRACTIVE-INDEX | OPTICS | SNAP FABRICATION | SILICA NANOWIRES
Nanophotonics | Microresonator | Microfiber | microresonator | microfiber | PHYSICS, APPLIED | MATERIALS SCIENCE, MULTIDISCIPLINARY | LIGHT | MICROFIBER LOOP RESONATOR | NANOSCIENCE & NANOTECHNOLOGY | NANOSCALE AXIAL PHOTONICS | nanophotonics | WHISPERING-GALLERY MODES | MICRORESONATOR CHAINS | DIAMETER MEASUREMENT | WAVE-GUIDES | REFRACTIVE-INDEX | OPTICS | SNAP FABRICATION | SILICA NANOWIRES
Journal Article
Journal of Lightwave Technology, ISSN 0733-8724, 10/2019, Volume 37, Issue 19, pp. 4985 - 4990
A method is proposed for predicting the evolution of the power distribution along graded-index plastic optical fibers. This method is verified against our...
Couplings | Optical fibers | graded-index optical fiber | Equilibrium mode distribution | mode coupling | Power distribution | Optical variables control | Optical coupling | power flow equation | Optical refraction | Indexes | GI POF | MODE | ATTENUATION | OPTICS | TELECOMMUNICATIONS | BANDWIDTH | ENGINEERING, ELECTRICAL & ELECTRONIC
Couplings | Optical fibers | graded-index optical fiber | Equilibrium mode distribution | mode coupling | Power distribution | Optical variables control | Optical coupling | power flow equation | Optical refraction | Indexes | GI POF | MODE | ATTENUATION | OPTICS | TELECOMMUNICATIONS | BANDWIDTH | ENGINEERING, ELECTRICAL & ELECTRONIC
Journal Article
IEEE Photonics Technology Letters, ISSN 1041-1135, 07/2015, Volume 27, Issue 13, pp. 1394 - 1397
The basic properties of a thermal memory effect of polymer optical fibers (POFs) are experimentally investigated. We measure the thermally induced loss as a...
Temperature measurement | Optical fibers | Temperature sensors | Optical fiber sensors | Heating | temperature sensing | thermal memory effect | Loss measurement | optical time-domain reflectometry | Polymers | polymer optical fibers | PHYSICS, APPLIED | BRAGG GRATINGS | LIGHT | MODE | SENSOR | PROPOSAL | ENGINEERING, ELECTRICAL & ELECTRONIC | TEMPERATURE | OTDR | Polymer optical fibers | TIME-DOMAIN REFLECTOMETRY | DISTRIBUTED STRAIN | INDEX | OPTICS | Time domain | Reflectometry | Constants | Photonics
Temperature measurement | Optical fibers | Temperature sensors | Optical fiber sensors | Heating | temperature sensing | thermal memory effect | Loss measurement | optical time-domain reflectometry | Polymers | polymer optical fibers | PHYSICS, APPLIED | BRAGG GRATINGS | LIGHT | MODE | SENSOR | PROPOSAL | ENGINEERING, ELECTRICAL & ELECTRONIC | TEMPERATURE | OTDR | Polymer optical fibers | TIME-DOMAIN REFLECTOMETRY | DISTRIBUTED STRAIN | INDEX | OPTICS | Time domain | Reflectometry | Constants | Photonics
Journal Article
Applied Optics, ISSN 1559-128X, 09/2011, Volume 50, Issue 25, pp. E38 - E49
Stimulated Brillouin scattering (SBS) has become a favorable underlying mechanism in many demonstrations of all-optical variable delay in standard fibers,...
PHASED-ARRAY ANTENNAS | SINGLE-MODE FIBERS | LOW-DISTORTION | GAIN SPECTRUM | BROAD-BAND SBS | WAVE-GUIDE | OPTICS | ATOMIC GAS | FUNDAMENTAL LIMITATIONS | TRUE-TIME-DELAY | TELLURITE GLASS-FIBER | Brillouin scattering | Research | Properties | Light | Fiber optics
PHASED-ARRAY ANTENNAS | SINGLE-MODE FIBERS | LOW-DISTORTION | GAIN SPECTRUM | BROAD-BAND SBS | WAVE-GUIDE | OPTICS | ATOMIC GAS | FUNDAMENTAL LIMITATIONS | TRUE-TIME-DELAY | TELLURITE GLASS-FIBER | Brillouin scattering | Research | Properties | Light | Fiber optics
Journal Article
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Slope-assisted fast distributed sensing in optical fibers with arbitrary Brillouin profile
Optics Express, ISSN 1094-4087, 10/2011, Volume 19, Issue 21, pp. 19845 - 19854
We present a novel method, based on stimulated Brillouin scattering (SBS), for the simultaneous distributed measurement of fast strain variations along the...
DYNAMIC STRAIN-MEASUREMENT | SINGLE-MODE FIBERS | CORRELATION-DOMAIN ANALYSIS | SENSOR | SPECTRUM | OPTICS | ORDER SPATIAL-RESOLUTION | SCATTERING
DYNAMIC STRAIN-MEASUREMENT | SINGLE-MODE FIBERS | CORRELATION-DOMAIN ANALYSIS | SENSOR | SPECTRUM | OPTICS | ORDER SPATIAL-RESOLUTION | SCATTERING
Journal Article
Optics Communications, ISSN 0030-4018, 02/2020, Volume 456, p. 124707
The magneto-optic (MO) coupled mode equations (CMEs) of linearly polarized (LP) guided light in MO fibers are deduced according to the coupled mode...
Coupled-mode theory | Multi-mode division multiplexing | Magneto-optical fiber | Mode conversion | FARADAY-ROTATION | OPTICS
Coupled-mode theory | Multi-mode division multiplexing | Magneto-optical fiber | Mode conversion | FARADAY-ROTATION | OPTICS
Journal Article
Measurement Science and Technology, ISSN 0957-0233, 07/2010, Volume 21, Issue 7, pp. 075302 - 075302
In the paper we analyze the fundamental accuracy limits of the time/frequency transfer in fiber-optic transmission systems based on intensity modulation and...
Time and frequency | Atomic clocks comparison | Optical fiber | Time and frequency transfer | NETWORK | SINGLE-MODE FIBERS | TEMPERATURE-DEPENDENCE | COMMUNICATION-SYSTEMS | NOISE | GPS | time and frequency transfer | atomic clocks comparison | CHROMATIC DISPERSION | INSTRUMENTS & INSTRUMENTATION | ENGINEERING, MULTIDISCIPLINARY | optical fiber | time and frequency | Optical fibers | Temperature dependence | Long fibers | Bidirectional | Backscattering | Modulation | Dispersions | Fiber optics | Fibers
Time and frequency | Atomic clocks comparison | Optical fiber | Time and frequency transfer | NETWORK | SINGLE-MODE FIBERS | TEMPERATURE-DEPENDENCE | COMMUNICATION-SYSTEMS | NOISE | GPS | time and frequency transfer | atomic clocks comparison | CHROMATIC DISPERSION | INSTRUMENTS & INSTRUMENTATION | ENGINEERING, MULTIDISCIPLINARY | optical fiber | time and frequency | Optical fibers | Temperature dependence | Long fibers | Bidirectional | Backscattering | Modulation | Dispersions | Fiber optics | Fibers
Journal Article
Journal of Lightwave Technology, ISSN 0733-8724, 09/2018, Volume 36, Issue 18, pp. 3970 - 3975
Absorption spectroscopy represents one highly relevant approach in current analytics to non-invasively characterize liquid analytes. Here we present the...
Optical fibers | Geometry | Absorption spectroscopy | Spectroscopy | Liquids | Absorption | Refractive index | nanobore optical fiber | power fraction | Optical fiber dispersion | INDOCYANINE-GREEN | NANOPARTICLE | GUIDANCE | TELECOMMUNICATIONS | PLASMONS | ENGINEERING, ELECTRICAL & ELECTRONIC | PLATFORM | STEP-INDEX FIBER | LEAKY MODES | TRACKING | REFRACTIVE-INDEX | OPTICS | HOLLOW-CORE FIBERS | Analytical chemistry | Organic chemistry | Nanochannels | Dependence | Spectroscopic analysis | Propagation modes
Optical fibers | Geometry | Absorption spectroscopy | Spectroscopy | Liquids | Absorption | Refractive index | nanobore optical fiber | power fraction | Optical fiber dispersion | INDOCYANINE-GREEN | NANOPARTICLE | GUIDANCE | TELECOMMUNICATIONS | PLASMONS | ENGINEERING, ELECTRICAL & ELECTRONIC | PLATFORM | STEP-INDEX FIBER | LEAKY MODES | TRACKING | REFRACTIVE-INDEX | OPTICS | HOLLOW-CORE FIBERS | Analytical chemistry | Organic chemistry | Nanochannels | Dependence | Spectroscopic analysis | Propagation modes
Journal Article
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