公开(公告)号：US5828680A

公开(公告)日：1998-10-27

申请号：US712597

申请日：1996-09-13

Applicant: Kyong-Hon Kim ,  Seo-Yeon Park ,  Hak-Kyu Lee ,  Min-Yong Jeon

Inventor： Kyong-Hon Kim ,  Seo-Yeon Park ,  Hak-Kyu Lee ,  Min-Yong Jeon

IPC: H01S3/10 ,  H01S3/067 ,  H01S3/083 ,  H01S3/098 ,  H01S3/30

CPC classification number: H01S3/06791 ,  H01S3/082 ,  H01S3/1109 ,  H01S3/1112 ,  Y10S372/70

Abstract: A hybrid type passively and actively mode-locked laser scheme is disclosed, in which not only the capability of producing ultra-short optical pulses by the conventional passively mode-locked optical fiber laser scheme is utilized, but also the repetition rate variation capability and the optical pulse synchronization capability of the conventional actively mode-locked laser scheme are utilized. Consequently, all the advantages of the two conventional laser schemes are obtained in the present invention. Specifically, two loops are coupled together, and one of the two loops consists of a non-linear amplifying loop of the existing passively mode-locked scheme, while the other loop includes an optical modulator and an optical gain medium for the loop to perform the function of an actively mode-locked scheme. Further the other loop includes a time delay line so as to adjust the laser oscillation repetition rate. The ultra-short optical pulses of the present invention will be applied to high speed time division multiplexed optical communication system, high speed optical signal processors, and ultrafast optical phenomenon studies.

Abstract translation: 公开了一种混合型被动和主动锁模激光器方案，其中不仅利用常规被动锁模光纤激光器方案产生超短光脉冲的能力，而且重复频率变化能力和 利用传统的主动锁模激光方案的光脉冲同步能力。 因此，在本发明中获得了两种常规激光方案的所有优点。 具体地，两个环路耦合在一起，并且两个环路中的一个环路由现有被动锁模方案的非线性放大环路组成，而另一个环路包括用于环路的光学调制器和光学增益介质， 主动模式锁定方案的功能。 此外，另一个环路包括时间延迟线，以便调整激光振荡重复率。 本发明的超短光脉冲将被应用于高速时分复用光通信系统，高速光信号处理器和超快光学现象研究。

公开(公告)号：US20230390760A1

公开(公告)日：2023-12-07

申请号：US18032557

申请日：2021-10-14

Applicant: Min Yong JEON

Inventor： Min Yong JEON

IPC: B01L3/00

CPC classification number: B01L3/50215 ,  B01L2300/0681 ,  B01L2400/0478 ,  B01L2300/0832 ,  B01L2300/0672

Abstract: The present invention relates to a blood separation tube used in centrifugation devices and, more specifically, to a blood separation tube comprising a cell activation part configured to generate physical stress through collision with blood being centrifuged, so that blood cells in the blood, such as platelets, white blood cells, and lymphocytes, can be activated. To this end, the present invention comprises: a tube body having a chamber for accommodating blood; and a cell activation part which protrudes from the inner surface or inside of the chamber so as to activate blood cells through physical collision with blood being centrifuged.

公开(公告)号：US09775942B2

公开(公告)日：2017-10-03

申请号：US14655340

申请日：2013-12-17

Applicant: Min-yong Jeon

Inventor： Min-yong Jeon

IPC: A61M1/36 ,  A61J1/06 ,  A61J1/14 ,  B01L3/00 ,  G01N33/49

CPC classification number: A61M1/3693 ,  A61J1/06 ,  A61J1/1406 ,  A61M2202/0427 ,  A61M2202/0439 ,  B01L3/5021 ,  B01L2200/0689 ,  B01L2300/044 ,  B01L2300/0858 ,  B01L2400/0478 ,  G01N33/491

Abstract: The present invention relates to a buffy coat extraction kit including: a kit body having a cylindrical plasma part that has an internal volume for forming a plasma layer, a cylindrical buffy coat part which extends in the longitudinal direction while communicating with the lower part of the plasma part and has a diameter smaller than the diameter of the plasma part and an internal volume for forming a buffy coat layer, and a cylindrical erythrocyte part which extends in the longitudinal direction while communicating with the lower part of the buffy coat part and has a diameter larger than the diameter of the buffy coat part and an internal volume for forming an erythrocyte layer, wherein the free end part of the plasma part and the free end part of the erythrocyte part are respectively opened; a lower packing movably accommodated in the erythrocyte part while maintaining an air-tight state; and a pusher moving the lower packing.

公开(公告)号：US20120251411A1

公开(公告)日：2012-10-04

申请号：US13513906

申请日：2010-12-15

Applicant: Min-yong Jeon

Inventor： Min-yong Jeon

IPC: B01D45/12 ,  B04B1/00

CPC classification number: B01L3/5021 ,  B01L3/5082 ,  B01L2300/0822 ,  B01L2300/0838 ,  B01L2300/0858

Abstract: The present invention relates to a centrifuge tube for use in the centrifugation of biological materials, wherein the diameter of the centrifuge tube is improved to enable minute centrifugation, and in which a thin, weak, and narrow portion of the centrifuge tube, to which a strong force is to be applied, is provided with a support piece to enable centrifugation to be performed without causing a deformation in the centrifuge tube. The centrifuge tube of the present invention enables the centrifugation of materials using differences in the specific gravities of the materials to be easily performed without using a reagent or the like. The centrifuge tube of the present invention has a closure made of a material such as a rubber, polyethylene, polypropylene, silicon or the like, such that a needle may penetrate through the closure and the centrifuge tube can be protected from contamination caused by bacteria, and centrifugation of biological materials can be performed in a closed space.

Abstract translation: 本发明涉及用于生物材料离心的离心管，其中离心管的直径得到改善以便能够进行微量离心，并且其中离心管的薄，弱和较窄部分，其中 设置有强力，设置有支撑件以使得能够进行离心而不会导致离心管中的变形。 本发明的离心管能够使用材料的比重差异容易地进行材料的离心，而不使用试剂等。 本发明的离心管具有由诸如橡胶，聚乙烯，聚丙烯，硅等的材料制成的封闭件，使得针可以穿过封闭件并且可以防止离心管免受由细菌引起的污染， 并且可以在封闭空间中进行生物材料的离心。

公开(公告)号：US07277222B2

公开(公告)日：2007-10-02

申请号：US11491646

申请日：2006-07-24

Applicant: Dong Churl Kim ,  Min Yong Jeon ,  Young Ahn Leem ,  Eun Deok Sim ,  Kyung Hyun Park ,  Sung Bock Kim

Inventor： Dong Churl Kim ,  Min Yong Jeon ,  Young Ahn Leem ,  Eun Deok Sim ,  Kyung Hyun Park ,  Sung Bock Kim

IPC: H01S3/00

CPC classification number: H04B10/299

Abstract: Provided is an apparatus and method for simultaneous optical wavelength conversion and optical clock signal extraction using semiconductor optical amplifiers (SOAs). The apparatus includes: a wavelength converter receiving a pump beam having input information and a probe beam having a different wavelength from the pump beam, and outputting the pump beam with an overshoot shifted to a red wavelength and an undershoot shifted to a blue wavelength due to non-linear characteristics and self-phase modulation of semiconductor optical amplifiers (SOAs) and the probe beam delivered the input information from the pump beam; an optical divider dividing output paths of the probe beam to which the input information has been delivered and the pump beam having the overshoot and the undershoot; a converted-wavelength extractor filtering the probe beam received from the optical divider; and a clock data regenerator obtaining a pseudo return-to-zero (PRZ) signal from the pump beam received from the optical divider and extracting a clock signal from the PRZ signal.The apparatus and method can simultaneously perform wavelength conversion and optical clock signal extraction on an NRZ signal using an optical method, without converting the NRZ signal into an electrical signal.

Abstract translation: 提供了一种使用半导体光放大器（SOA）同时进行光波长转换和光时钟信号提取的装置和方法。 该装置包括：波长转换器，其接收具有输入信息的泵浦光束和具有与泵浦光束不同的波长的探测光束，并且由于偏移到红色波长的过冲和由于由于 半导体光放大器（SOA）的非线性特性和自相位调制以及探测光束从泵浦光束传送输入信息; 分割器分割输入信息已被传送到的探测光束的输出路径和具有过冲和下冲的泵浦光束; 转换波长提取器对从分光器接收的探测光束进行滤波; 以及时钟数据再生器，从从光分路器接收的泵浦光束获得伪归零（PRZ）信号，并从PRZ信号提取时钟信号。 该装置和方法可以使用光学方法在NRZ信号上同时进行波长转换和光时钟信号提取，而不将NRZ信号转换成电信号。

公开(公告)号：US06266458B1

公开(公告)日：2001-07-24

申请号：US09416904

申请日：1999-10-13

Applicant: Joon Tae Ahn ,  Hak Kyu Lee ,  Min-Yong Jeon ,  Dong Sung Lim ,  Kyong-Hon Kim

Inventor： Joon Tae Ahn ,  Hak Kyu Lee ,  Min-Yong Jeon ,  Dong Sung Lim ,  Kyong-Hon Kim

IPC: G02B600

CPC classification number: G02B6/2726 ,  G02B6/2773 ,  G02B6/29302 ,  G02B6/29352 ,  G02B6/29395

Abstract: The present invention provides a tunable optical filtering system using fiber-optic polarimetric interferometer. The tunable optical filtering system using fiber-optic polarimetric interferometer in accordance with the present invention comprises a stabilization light source, a first polarization beam splitter, a first optical fiber node, a number of polarization maintaining optical fibers, a phase modulator, a stabilization electronics, a second optical fiber node, a second polarization beam splitter, and two wavelength division optical multiplexers. The stabilization light source supplies stabilization light. The first polarization beam splitter polarizes the stabilization light and the input light to be filtered and generates polarized light. The first optical fiber node connects the output of the first polarization beam splitter with polarization maintaining fibers with the angle of 45 degree between their birefringent axes and splits the polarized light. The number of polarization maintaining optical fibers carries the split light by the first optical fiber node. The phase modulator maintains phase difference between two birefringent axes of the polarization maintaining fibers. The stabilization electronics supply feedback signal to the phase modulator. The second optical fiber node connects the polarization maintaining fibers with the input of second polarization beam splitter with the angle of 45 degree between their birefringent axes, receives split light by said first optical fiber node, and generates interference signals. The second polarization beam splitter divides the interference signals into output signals by polarization axes. The wavelength division optical multiplexers divide the output signals into signals for the stabilization electronics and filtered signals by wavelengths.

Abstract translation: 本发明提供一种使用光纤偏振干涉仪的可调谐光学滤波系统。 根据本发明的使用光纤偏振干涉仪的可调谐光学滤波系统包括稳定光源，第一偏振分束器，第一光纤节点，多个保偏光纤，相位调制器，稳定电子器件 ，第二光纤节点，第二偏振分束器和两个波分复用器。 稳定光源提供稳定光源。 第一偏振分束器使稳定光和要滤波的输入光偏振，产生偏振光。 第一光纤节点将第一偏振分束器的输出端与偏振维持光纤以双折射轴之间的角度45度连接并分离偏振光。 偏振维持光纤的数量由第一光纤节点承载分离光。 相位调制器保持偏振保持光纤的两个双折射轴之间的相位差。 稳定电路向相位调制器提供反馈信号。 第二光纤节点将偏振保持光纤与第二偏振光束分离器的输入端在双折射轴之间以45度的角度连接，由所述第一光纤节点接收分束光，并产生干涉信号。 第二偏振分束器通过偏振轴将干扰信号分成输出信号。 波分复用器将输出信号划分为稳定电路的信号和波长的滤波信号。

公开(公告)号：US06256432B1

公开(公告)日：2001-07-03

申请号：US09382456

申请日：1999-08-25

Applicant: Min-Yong Jeon ,  Hak Kyu Lee ,  Dong Sung Lim ,  Joon-Tae Ahn ,  Kyoung-Hon Kim

Inventor： Min-Yong Jeon ,  Hak Kyu Lee ,  Dong Sung Lim ,  Joon-Tae Ahn ,  Kyoung-Hon Kim

IPC: G02B628

CPC classification number: H04B10/299 ,  H01S5/0657

Abstract: The present invention provides a demultiplexer for generating a constant four-wave-mixing beam without regard to an input polarization state using a dispersion-shifted fiber that is a nonlinear material with high refractive index. A number of parts in conventional demultiplexer implementations, which are sensitive to input polarization state has been replaced with optical fibers of high polarization mode dispersion.

Abstract translation: 本发明提供一种解复用器，用于使用作为具有高折射率的非线性材料的色散位移光纤而不考虑输入偏振状态来产生恒定的四波混频。 对输入偏振状态敏感的常规解复用器实现中的许多部分已被高偏振模色散的光纤代替。

公开(公告)号：US6101027A

公开(公告)日：2000-08-08

申请号：US145545

申请日：1998-09-02

Applicant: Hak Kyu Lee ,  Kyong Hon Kim ,  Joon Tae Ahn ,  Min Yong Jeon ,  Dong Sung Lim ,  Ho Young Kim

Inventor： Hak Kyu Lee ,  Kyong Hon Kim ,  Joon Tae Ahn ,  Min Yong Jeon ,  Dong Sung Lim ,  Ho Young Kim

IPC: G02F2/00 ,  H01S5/062 ,  H01S5/50 ,  H01S3/00

CPC classification number: G02F2/004 ,  H01S5/50

Abstract: The present invention discloses an all-optical wavelength converter using a semiconductor optical amplifier and a polarization interferometer. The all-optical wavelength converter using a semiconductor optical amplifier and a polarization interferometer including a wavelength converter which modulates a probe light into a inverting waveform to a signal light and outputs the modulated light by using cross gain modulation, a phenomenon that occurs while the signal light and the probe light pass together through an optical splitter/combiner, a semiconductor optical amplifier and a filter at the same time, a polarization interferometer which makes the probe light outputted from the wavelength converter and having the inverting waveform to the signal light undergo a double-refraction so that a predetermined time split occurs on it and provides a non-inverting wavelength conversion and suppresses the slow XGM components in the converted outputs due to the slow carrier recombination time.

Abstract translation: 本发明公开了一种使用半导体光放大器和偏振干涉仪的全光波长转换器。 使用半导体光放大器的全光波长转换器和包括波长转换器的偏振干涉仪，其将探测光调制为信号光的反相波形，并通过使用交叉增益调制输出调制光，该信号在信号 光和探测光同时通过光分路器/组合器，半导体光放大器和滤波器一起通过，使得从波长转换器输出并且具有对信号光的反相波形的探测光的偏振干涉仪经历 双折射使得在其上发生预定的时间分割并且提供非反相波长转换，并且由于载流子复合时间较慢而抑制转换输出中的慢XGM分量。

公开(公告)号：US5450507A

公开(公告)日：1995-09-12

申请号：US354867

申请日：1994-12-09

Applicant: Jong-Dug Shin ,  Min-Yong Jeon ,  El-Hang Lee

Inventor： Jong-Dug Shin ,  Min-Yong Jeon ,  El-Hang Lee

IPC: G02B6/00 ,  G02B6/28 ,  G02B6/30 ,  H04B10/00 ,  H04L12/70 ,  H04Q11/00

CPC classification number: G02B6/2861 ,  H04Q11/0003

Abstract: A fiber-optic address detector comprises fiber-optic delay lines on one surface of which a metal thin film is evaporated, the fiber-optic delay lines being connected in a melting state to fiber-optic couplers, wherein inputting address photonic signals are tapped by the inputting fiber-optic couplers, reflected by the metal thin films at the end portion of the fiber-optic delay line and then re-combined by the inputting fiber-optic coupler, whereby it can reduce the number of the fiber-optic coupler used in the conventional fiber-optic address detector to one half as well as obtain the same address detection effect.

Abstract translation: 光纤地址检测器包括在其表面上的金属薄膜被蒸发的光纤延迟线，光纤延迟线以熔化状态连接到光纤耦合器，其中输入地址光信号由 输入光纤耦合器，由光纤延迟线端部的金属薄膜反射，然后由输入光纤耦合器重新组合，从而可以减少使用的光纤耦合器的数量 在传统的光纤地址检测器中一半，以及获得相同的地址检测效果。