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    • 1. 发明申请
    • Adjustable focus connector with spring action
    • 具有弹簧作用的可调聚焦连接器
    • US20070206904A1
    • 2007-09-06
    • US11656001
    • 2007-01-22
    • Omur SezermanGarland BestThoba NguyenSteven Keeler
    • Omur SezermanGarland BestThoba NguyenSteven Keeler
    • G02B6/36
    • G02B6/3821G02B6/266G02B6/3506G02B6/3552G02B6/3594G02B6/4292G02B6/4296
    • An adjustable focus connector with spring action is especially adapted for use with common FC or SMA fiber optic receptacles. The connector includes a ferrule holder which mounts a fiber-carrying ferrule at a distal end thereof. At its proximal end the ferrule holder is threadedly connected to a lead screw member. A thrust collar surrounds the ferrule holder and traps a compression spring in the cavity between the thrust collar and the ferrule holder. Because of appropriate interengagement between the components the ferrule holder cannot rotate relative to the trust collar. A traveler is threadedly connected to the lead screw and abuts against the thrust collar. A connection nut is provided at the distal end of the connector to connect it to the fiber optic receptacle. The spring action of the connector prevents damage to the fiber end during connection of the connector to the fiber optic receptacle
    • 具有弹簧作用的可调焦点连接器特别适用于通用FC或SMA光纤插座。 连接器包括在其远端安装纤维承载套圈的套圈保持器。 在其近端处,套圈保持器螺纹连接到导螺杆构件。 止推环围绕套圈保持器并且在止推环和套圈座之间的空腔中捕获压缩弹簧。 由于组件之间的适当的相互接合,套圈保持器不能相对于信任套环旋转。 旅行者螺纹连接到导螺杆并抵靠止推环。 连接螺母设置在连接器的远端,以将其连接到光纤插座。 连接器连接到光纤插座时,连接器的弹簧作用可防止损坏光纤端
    • 4. 发明授权
    • Adjustable focus connector with spring action
    • 具有弹簧作用的可调聚焦连接器
    • US07431513B2
    • 2008-10-07
    • US11656001
    • 2007-01-22
    • Omur M. SezermanGarland BestThoba NguyenSteven Keeler
    • Omur M. SezermanGarland BestThoba NguyenSteven Keeler
    • G02B6/36
    • G02B6/3821G02B6/266G02B6/3506G02B6/3552G02B6/3594G02B6/4292G02B6/4296
    • An adjustable focus connector with spring action is especially adapted for use with common FC or SAM fiber optic receptacles. The connector includes a ferrule holder which mounts a fiber-carrying ferrule at a distal end thereof. At its proximal end the ferrule holder is threadedly connected to a lead screw member. A thrust collar surrounds the ferrule holder and traps a compression spring in the cavity between the thrust collar and the ferrule holder. Because of appropriate interengagement between the components the ferrule holder cannot rotate relative to the trust collar. A traveler is threadedly connected to the lead screw and abuts against the thrust collar. A connection nut is provided at the distal end of the connector to connect it to the fiber optic receptacle. The spring action of the connector prevents damage to the fiber end during connection of the connector to the fiber optic receptacle.
    • 具有弹簧作用的可调焦点连接器特别适用于通用FC或SAM光纤插座。 连接器包括在其远端安装纤维承载套圈的套圈保持器。 在其近端处,套圈保持器螺纹连接到导螺杆构件。 止推环围绕套圈保持器并且在止推环和套圈座之间的空腔中捕获压缩弹簧。 由于组件之间的适当的相互接合,套圈保持器不能相对于信任套环旋转。 旅行者螺纹连接到导螺杆并抵靠止推环。 连接螺母设置在连接器的远端,以将其连接到光纤插座。 连接器连接到光纤插座时,连接器的弹簧作用可防止损坏光纤端。
    • 6. 发明申请
    • Microstructuring optical wave guide devices with femtosecond optical pulses
    • US20060269201A1
    • 2006-11-30
    • US11500299
    • 2006-08-08
    • Omur SezermanKenneth HillGarland BestDwayne MillerMichael ArmstrongShujie Lin
    • Omur SezermanKenneth HillGarland BestDwayne MillerMichael ArmstrongShujie Lin
    • G02B6/02
    • G02B6/02123C03C23/0025C03C25/6208G02B6/02052G02B6/02147G02B6/105G02B6/266G02B6/2821G02B6/2852G02B6/4214
    • The present invention is directed to the creation of zones of permanently altered refractive index characteristics in glass waveguiding devices, including optical fibers and optical waveguides pre-existed in a glass substrate. Such zones in which the refractive index has been permanently altered are created in glass using a very high intensity laser beam which is produced by focusing the light output from an ultrafast pulsed laser at a predetermined target region in the glass. The preferred laser is a Ti:Sapphire amplified, frequency-doubled Erbium-doped fiber laser system, providing light pulses of approximately 100 femtosecond duration, each with an energy of between about 1 nanojoule and 1 millijoule, and preferably at a pulse repetition rate of between 500 Hz and 1 GHz. The repetition rate is chosen to deliver pulses faster than the thermal diffusion time over the dimensions of the volume element being modified. This latter process is to accumulate heat to the point of liquefying the material in order to increase material compliance to the femtosecond writing process and increase the subsequent thermal barrier to relaxation of the written structural element and thereby increase the lifetime of the device or structural function. One or more zones of permanently altered refractive index characteristics can be formed in a waveguiding device, such as an optical fiber by utilizing a focused, pulsed, laser light source which generates a focal region having an intensity greater than the threshold for inducing permanent refractive index changes in the device. The focal region is aligned with the device and relative movement between the focal region and the device has the effect of sweeping the focal region across the device in a predetermined path. The result is a zone within the device in which the refractive index characteristics of the device have been permanently altered so as to control amplitude, phase, spatial propagation or polarization states of light within the material.