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51 results about "Graded-index fiber" patented technology

In fiber optics, a graded index is an optical fiber whose core has a refractive index that decreases with increasing radial distance from the optical axis of the fiber. Because parts of the core closer to the fiber axis have a higher refractive index than the parts near the cladding, light rays follow sinusoidal paths down the fiber. The most common refractive index profile for a graded-index fiber is very nearly parabolic. The parabolic profile results in continual refocusing of the rays in the core, and minimizes modal dispersion.

Graded-index optical fiber

An optical fiber having a core that has a graded refractive index profile is disclosed. A clad surrounds the core and traps light within the core. A difference between differential mode delays (DMDs) at wavelengths of about 1300 nm and about 850 nm within the core is increased in a radial direction. The difference between the DMDs at both the wavelengths basically has a value equal to or less than 0.6 ns / km between a position corresponding to 50% of a radius of the core and a center of the core.
Owner:SAMSUNG ELECTRONICS CO LTD

Optical coherence tomography with graded index fiber for biological imaging

A system for optical coherence tomography includes a source of optical radiation, an optical fiber, and a graded index fiber attached to a distal end of the optical fiber. The optical fiber and the graded index fiber are together configured to provide a common path for optical radiation reflected from a reference interface at a distal end of the graded index fiber and from a target.
Owner:AVINGER

Optical coherence tomography with graded index fiber for biological imaging

A system for optical coherence tomography includes a source of optical radiation, an optical fiber, and a graded index fiber attached to a distal end of the optical fiber. The optical fiber and the graded index fiber are together configured to provide a common path for optical radiation reflected from a reference interface at a distal end of the graded index fiber and from a target.
Owner:AVINGER

Method of fabricating graded-index optical fiber lenses

A GRIN fiber lens is fabricated by the steps of providing a graded index glass preform, thinning the graded index preform to remove a sufficient thickness of the graded glass to establish a desired Δn, and drawing a graded index optical fiber from the thinned graded index preform. Thinning, in this context, refers to removal of graded index glass from the outside of the graded index preform so as to reduce its outer diameter. The thinning thus changes Δn which is the refractive index difference between the center of the preform and its outer surface. The graded index preform can be provided by MCVD deposition followed by removal of the starting tube glass, by OVD deposition, by VAD, or by ion exchange fabrication. The thinned graded index preform is advantageously annealed before drawing in order to minimize ripple. And, in a variation of the process, an overcladding can be applied over the thinned graded preform before draw for further adjustment or control of the Δn.
Owner:FURAKAWA ELECTRIC NORTH AMERICA INC

Optical fibre with lens function and its producing method

InactiveCN1361439AWith lens functionCoupling light guidesLensRefractive indexIon exchange
A lens function-including optical fiber is constituted by: at least one step-index optical fiber; and at least one gradient index optical fiber having an outer diameter equal to that of the step-index optical fiber and having a periodic length exhibiting a lens function, the gradient index optical fiber being joined or attached to an end surface of the step-index optical fiber. The present invention is especially effective in a single mode optical fiber which is typical of the step-index optical fiber. The gradient index optical fiber can be produced by an ion exchange method.
Owner:NIPPON SHEET GLASS CO LTD

All-fiber Bessel light beam generator

The invention provides an all-fiber Bessel light beam generator which is composed of a standard single-core fiber, an annular core fiber and a graded index fiber. When light wave is input to the single-core fiber, the transmission light wave can be coupled to the annular core fiber to form an annular light field, then the annular light field is formed into the Bessel light beam at a fiber end through the equivalent Fourier expansion optical transformation of the graded index fiber. Due to the light beam generator provided by the invention employing an all-fiber system, the graded index fiber is used for realizing a function of the lens, the whole generator is easy to align and is more stable compared with the traditional geometry optical system. In addition, the light beam generator has the characteristics of minimal structure, agile operation and strong anti-interference capability. The light beam generator can be applied to the fields of light beam generation, particle controlling and sensing and the like.
Owner:无锡万润光子技术有限公司

Small-core-diameter graded index fiber

The invention relates to a small-core-diameter graded index fiber. The small-core-diameter graded index fiber comprises a core layer and claddings; the claddings are an inner cladding, a sunken cladding and an outer cladding in sequence from inside to outside; the small-core-diameter graded index fiber is characterized in that the refractivity profile of the core layer is parabolic, a distributionindex alpha is 1.9-2.1, the radius R1 of the core layer is 10-21 [mu]m, and the maximum relative refractive index difference delta 1max of the center of the core layer is 0.7-1.7%; the core layer isa Ge, P and F-coped silicon dioxide glass layer, the inner cladding is a pure silicon dioxide layer or an F-doped silicon dioxide glass layer, the one-sided width of the inner cladding is 0.5-5 [mu]m,delta 2 is -0.4-0%, and the one-sided width of the sunken cladding is 2-10 [mu]m, delta 3 is -0.8-0.2%; and the outer cladding is a pure silicon dioxide glass layer. The small-core-diameter graded index fiber can be compatible with an existing OM3 / OM4 multimode fiber, and also can support a wavelength division multiplexing technology in a wavelength range of 850-950nm; the small-core-diameter graded index fiber can be compatible with a single mode fiber, and supports single mode transmission of 1,310nm and 1,550nm; and the small-core-diameter graded index fiber has excellent bending-resistantperformance and can be suitable for access networks and miniaturized optical devices.
Owner:YANGTZE OPTICAL FIBRE & CABLE CO LTD

Graded refractive index optical fibers, optical components fabricated to include plural graded index optical fibers and methods of fabricating the same

A graded-refractive-index optical fiber is fabricated by providing an elongated core rod of a first material including a concentration of high-refractive-index ions and a cladding tube of a second material including a lower concentration of the high-refractive-index ions present in the core rod material. The core rod is axially introduced into the cladding tube and the core rod and cladding tube are heated and vertically drawn in the furnace of a fiber drawing tower to cause the collapse of the cladding tube about the core rod and the radially outward diffusion of high-refractive-index ions into the cladding tube to yield an optical fiber exhibiting a radially graded refractive index that decreases with displacement from the rod axis. In various implementations, fused image-conducting fiber bundles are fabricated by bundling, heating and drawing a plurality of constituent-GRIN-optical-fiber pre-forms.
Owner:SCHOTT CORP

Two-dimensional scan fiber optic probe for endoscopic optical coherence tomography

The invention discloses a two-dimensional scan fiber optic probe for endoscopic optical coherence tomography. The fiber optic probe is based on an asymmetric fiber cantilever structure which can form two independent orthogonal resonant modes which are mutually unaffected; and by using a single driving signal which comprises two resonant signal components, the two orthogonal resonant modes of the asymmetric fiber cantilever can be simultaneously excited to form a two-dimensional Lissajous scan pattern. The provided two-dimensional scan fiber optic probe based on the asymmetric fiber cantilever structure forms lens fibers by using single mode fibers and gradient index fibers, and then combines with a gradient index lens to realize the illumination of samples and the collection of backward scattered light. The two-dimensional scan fiber optic probe uses a position-sensitive detector integrated in the probe, can record the two-dimensional paths of the emergent light of the fiber optic probe in real time in an imaging cross section, and can realize accurate reconstruction of scan position information.
Owner:ZHEJIANG UNIV

Fiber extended, semiconductor laser

A semiconductor laser, such as a vertical cavity, surface emitting laser (VCSEL) is coupled to an optical fiber. The other end of the optical fiber has a reflector, so as to provide a fiber-extended cavity for the VCSEL. Such a construction is useful for providing modal stability to the VCSEL or for forming a mode-locked VCSEL. The optical fiber may be a graded index fiber. In such a case, the fiber length may be selected to have an integral number of quarter pitch lengths. The fiber may be doped with an excitable species and lies within a fiber laser cavity. A semiconductor laser may pump the fiber laser, yielding an emission wavelength beyond the scope of the conventional semiconductor laser.
Owner:THORNTON ROBERT L

Optical isolator with tilted optical isolator element

An optical isolator including: (a) a support body; (b) an optical fiber assembly disposed in the support body including a first single mode fiber, a first graded index fiber, a coreless fiber, a second graded index fiber, and a second single mode fiber; and (c) an optical isolator element disposed in a groove formed in the support body so as to separate the coreless fiber. The optical isolator element is tilted with respect to the optical axis of the optical fiber assembly, thereby to achieve optical coupling with both the end face of the first graded index fiber on the coreless fiber side and the end face of said the graded index fiber on the coreless fiber side.
Owner:KYOCERA CORP

Passive mode-locking fiber laser based on graded-refractive index multimode fiber saturable absorber

The invention discloses a passive mode-locking fiber laser based on a graded-refractive index multimode fiber saturable absorber, and relates to the field of fiber lasers. The passive mode-locking fiber laser adopts a ring cavity structure, and includes a semiconductor pumping source, and a wavelength division multiplexer, an erbium-doped fiber, a polarization-independent isolator, a graded-refractive index fiber saturable absorber device, and an output coupler which are successively form a beam loop. The graded-refractive index fiber saturable absorber device functions as a saturable absorberon the basis of the nonlinear multimode interference effect in the graded-refractive index fiber, and is composed of a two single-mode fibers intermediately fused with a graded-refractive index multimode fiber. Two ends of the saturable absorber device are fixed on a movable fiber clamp for changing the length of the fiber. The fiber laser realizes the full fiberization of mode-locking lasers, has the advantages of simple structure and high damage threshold, and greatly improves the stability and practicability of the mode-locking lasers.
Owner:CHINA JILIANG UNIV

Graded index fiber based on ring-structure fiber core

The invention relates to a graded index fiber based on a ring-structure fiber core. The fiber core of the optical fiber adopts a ring structure; a refractive index distribution manner of the fiber core with the ring structure adopts a graded type.
Owner:SUN YAT SEN UNIV

Two-port optical devices using mini-collimators

Designs of 2-port optical devices are disclosed. The optical devices so designed are amenable to small footprint, enhanced impact performance, lower cost, and easier manufacturing process. The optical device comprises at least two collimators, each of the collimators including: a single-mode fiber, and a multi-mode graded index fiber, aligned with the single-mode fiber in a way that the multi-mode graded index fiber and the single-mode fiber are spliced together, wherein the multi-mode graded index fiber is designed to have a predefined length.
Owner:ALLIAN FIBER OPTIC PROD INC

Optical component and method of manufacturing the same

The invention relates to an optical component including an optical fiber with a lens constituted by a single-mode optical fiber and a graded index optical fiber and a method of manufacturing the same. The invention provides an optical component in which an optical fiber with a lens can be accurately mounted on a substrate and which has high performance and highly stable manufacturability. An optical component has three V-shaped grooves for disposing optical fibers. An optical fiber with a lens is disposed in each of the V-shaped grooves. The optical component has a positioning mark using for positioning optical fiber connecting surfaces. The positioning mark extending across the V-shaped grooves in an orthogonal relationship therewith is provided. The positioning mark is formed line a concave groove and is visually perceived as two parallel straight lines when viewed in a direction normal to the surface on which the V-shaped grooves are formed. The optical fiber connecting surfaces are positioned between the two parallel straight lines.
Owner:TDK CORPARATION

Optical coupler including mode-mixing

A mode-mixer is used to introduce mode-mixing to an input in an optical coupler. As a result, modal noise effects are minimized in an output of the optical coupler. An example of a mode-mixer implemented includes a step index optical fiber which may or may not be coupled to a graded index optical fiber via a splice within an optical coupler. The splice may be a mechanical splice using connectors or a fused splice in some embodiments. The optical coupler may be included in a system for monitoring and / or analyzing a network.
Owner:FINISAR

Faraday Rotator Mirror and Method for Manufacturing the Same

A Faraday rotator mirror which is compact, allows high workability of manufacturing and has high reliability and high coupling efficiency is provided. The Faraday rotator mirror comprises a graded-index fiber, a Faraday rotator and a reflector mirror, wherein light incident via the graded-index fiber passes through the Faraday rotator to be reflected on the reflector mirror, and the reflected light passes through the Faraday rotator and emerges through the graded-index fiber.
Owner:KYOCERA CORP

Optical fiber collimator and manufacturing method thereof

An optical fiber collimator is provided in which the optical axis of a beam of light incident upon and emergent from the end face of the optical fiber collimator utilizing graded index (GI) optical fiber is made to perfectly agree with the axial direction of the optical fiber and further the optical fiber collimator is capable of obtaining a return loss characteristic. The optical fiber collimator comprises: a single mode (SM) optical fiber and GI optical fiber fused to an end face of SM optical fiber so that an optical axis of SM optical fiber is coincide with an optical axis of GI optical fiber to effect an optical transmission between these fibers; and GI optical fiber having a second end face provided with a bulge portion defining a smooth outer surface symmetrical with respect to the common optical axis of SM and GI optical fibers.
Owner:SHINKO ELECTRIC IND CO LTD

Optical isolator with tilted optical isolator element

An optical isolator including: (a) a support body; (b) an optical fiber assembly disposed in the support body including a first single mode fiber, a first graded index fiber, a coreless fiber, a second graded index fiber, and a second single mode fiber; and (c) an optical isolator element disposed in a groove formed in the support body so as to separate the coreless fiber. The optical isolator element is tilted with respect to the optical axis of the optical fiber assembly, thereby to achieve optical coupling with both the end face of the first graded index fiber on the coreless fiber side and the end face of said the graded index fiber on the coreless fiber side.
Owner:KYOCERA CORP

Self-focusing fiber array used for integral field unit

A self-focusing fiber array used for an integral field unit belongs to the field of astronomical photonics. A structure of the array includes a graded index fiber, a step type fiber, a quartz fixture,the graded index fiber and the step type fiber are fused to form a self-focusing fiber, a fusion point is located at an intersection point of the graded index fiber and light rays that is 1 / 4 pitch of the self-focusing fiber, and an optical fiber array is formed by staggered layer-by-layer arrangement. The self-focusing fiber array of the invention collects optical information through the self-focusing effect of the optical fiber itself, the problem that light cannot be coupled to an optical fiber core and cannot be transmitted does not exist, and through the structure, the process difficultyis reduced, complex operation of alignment of a micro lens and the fiber array is avoided, and the capability of collecting the optical information can also be increased.
Owner:HARBIN ENG UNIV

Optical fiber with small core diameter and gradually changing refractive index

ActiveCN108983350AImproved material dispersion propertiesImprove bend insensitive performanceOptical fibre with graded refractive index core/claddingOptical fibre with multilayer core/claddingRelative refractive indexLength wave
The invention relates to an optical fiber with a small core diameter and a gradually changing refractive index. The optical fiber comprises a core layer and a coating layer, the coating layer comprises an inner coating layer, a sinking coating layer and an outer coating layer in sequence from the inside to the outside. The optical fiber is characterized in that a refractive index section of the core layer is in a parabola shape, the distribution index alpha is 1.9-2.1, the radius R1 of the core layer is 10-21 [mu]m, the central maximum relative refractive index difference delta1max of the corelayer is 0.7%-1.7%, the inner coating layer is a pure silicon dioxide layer or an F-doped silicon dioxide glass layer, the single-side width (R2-R1) is 0.5-5 [mu]m, the relative refractive index difference delta2 is -0.4% to 0%, the single-side width (R3-R2) of the sinking coating layer is 2-10 [mu]m, the relative refractive index difference delta3 is -0.8% to -0.2%, and the outer coating layer is a pure silicon dioxide glass layer. The optical fiber can be compatible with conventional OM3 / OM4 multi-mode optical fibers, the wavelength division multicomplexing technology in a wavelength rangeof 850-950 nm can be supported, the MFD of the fundamental mode LP01 of the optical fiber is matched with the single-mode optical fiber and can be compatible with the single-mode optical fiber, and single-mode transmission of 1310 nm and 1550 nm can be supported.
Owner:YANGTZE OPTICAL FIBRE & CABLE CO LTD

Photo-acoustic endoscopic apparatus based on graded-index optical fiber

The invention provides a photo-acoustic endoscopic apparatus based on a graded-index optical fiber. The photo-acoustic endoscopic apparatus based on graded-index optical fibers comprises the graded-index optical fiber, a reflecting mechanism, an ultrasonic transducer and a protective sleeve. An emergent end of the graded-index optical fiber, the reflecting mechanism and the ultrasonic transducer are sequentially fixed into the protective sleeve. Lasers, emergent from the emergent end of the graded-index optical fiber, are reflected by the reflecting mechanism and converged at the target tissue outside of the protection sleeve in order to generate a photo-acoustic signal by simulation of the target tissue. The ultrasonic transducer receives the photo-acoustic signal generated at the target tissue and coverts the photo-acoustic signal into an electric signal for output. The photo-acoustic endoscopic apparatus based on the graded-index optical fiber has following beneficial effects: the graded index fiber is utilized for laser transmission without introducing other convergent components so that convergence of the emergent lasers is achieved. The decrease in divergence angles of the emergent lasers gives rise to increase in pulsed light quantity incident upon the surface of the target tissue. Therefore, imaging signal-to-noise ratio and imaging speed of a system are effectively increased. The photo-acoustic endoscopic apparatus is small in size and simple in assembly.
Owner:SHENZHEN INST OF ADVANCED TECH

Coupling device for semiconductor stripe laser diode (LD) and single mode fiber (SMF)

The invention discloses a coupling device for a semiconductor stripe laser diode (LD) and a single mode fiber (SMF). The coupling device comprises the semiconductor stripe LD, a focusing telescope system, an elliptical graded index fiber (EGIF) and the SMF, wherein, the EGIF has a long axis direction and a short axis direction, the long axis direction is consistent with that of the parallel active layer of the semiconductor LD, and the short axis direction is consistent with that of the vertical active layer of the semiconductor LD. The coupling device has the advantages that the problems such as complex structure, difficulty in manufacture and the like of a lens caused by realizing efficient coupling between the LD and the SMF only by utilizing a lens system are effectively solved; and by adopting the EGIF, a light field which is coupled into the SMF after shaping transformation can also obtain efficient coupling in the event that the light field is in an incomplete circular shape.
Owner:BEIJING JIAOTONG UNIV

Optical component and method of manufacturing the same

The invention relates to an optical component including an optical fiber with a lens constituted by a single-mode optical fiber and a graded index optical fiber and a method of manufacturing the same. The invention provides an optical component in which an optical fiber with a lens can be accurately mounted on a substrate and which has high performance and highly stable manufacturability.An optical component has three V-shaped grooves for disposing optical fibers. An optical fiber with a lens is disposed in each of the V-shaped grooves. The optical component has a positioning mark using for positioning optical fiber connecting surfaces. The positioning mark extending across the V-shaped grooves in an orthogonal relationship therewith is provided. The positioning mark is formed line a concave groove and is visually perceived as two parallel straight lines when viewed in a direction normal to the surface on which the V-shaped grooves are formed. The optical fiber connecting surfaces are positioned between the two parallel straight lines.
Owner:TDK CORPARATION

Optical collimator structure

An optical collimator structure comprising an optical fiber assembly of a plurality of unitary single-mode optical fibers each having a core, and a ferrule for supporting the optical fiber assembly inserted partially therein and bonded thereto, wherein the core has a graded index optical fiber bonded to the end face thereof, the graded index optical fiber along with the end portion of the core to which the graded index optical fiber is bonded being inserted in a hole of a capillary provided at an end of the ferrule, and the end face of the graded index optical fiber for emitting or receiving a beam of light has a tilt angle relative to the optical axis of the optical collimator structure.
Owner:SHINKO ELECTRIC IND CO LTD

Optical collimator structure

An optical collimator structure comprising an optical fiber assembly of a plurality of unitary single-mode optical fibers each having a core, and a ferrule for supporting the optical fiber assembly inserted partially therein and bonded thereto, wherein the core has a graded index optical fiber bonded to the end face thereof, the graded index optical fiber along with the end portion of the core to which the graded index optical fiber is bonded being inserted in a hole of a capillary provided at an end of the ferrule, and the end face of the graded index optical fiber for emitting or receiving a beam of light has a tilt angle relative to the optical axis of the optical collimator structure.
Owner:SHINKO ELECTRIC IND CO LTD

Faraday rotator mirror and method for manufacturing the same

A Faraday rotator mirror which is compact, allows high workability of manufacturing and has high reliability and high coupling efficiency is provided. The Faraday rotator mirror comprises a graded-index fiber, a Faraday rotator and a reflector mirror, wherein light incident via the graded-index fiber passes through the Faraday rotator to be reflected on the reflector mirror, and the reflected light passes through the Faraday rotator and emerges through the graded-index fiber.
Owner:KYOCERA CORP

Wavelength-tunable single-polarization single-frequency ring-cavity optical fiber laser

The invention discloses a wavelength-tunable single-polarization single-frequency ring-cavity optical fiber laser, and belongs to the technical field of optical fiber lasers. The wavelength-tunable single-polarization single-frequency ring-cavity optical fiber laser structurally comprises a pump source (1), a wavelength division multiplexer (2), an erbium-doped optical fiber (3), an optical fiber polarizer (4), a polarization maintaining optical fiber (5), a band-pass filter (6), an optical isolator (7), a 2*2 optical coupler (8), a two-mode graded-refractive index optical fiber (9), an optical fiber circulator (10) and a polarization controller (11). The wavelength-tunable single-polarization single-frequency ring-cavity optical fiber laser adopts a compact and simple structural design to obtain high-quality laser output, is high in practicality, not only has a single-frequency characteristic, but also has a single-polarization characteristic, and is applicable to both a high-speed optical fiber communication system and a polarization-sensitive optical fiber system.
Owner:JILIN UNIV
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