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    • 2. 发明申请
    • TUNABLE LASER
    • 柔性激光
    • WO2010147606A1
    • 2010-12-23
    • PCT/US2009/061921
    • 2009-10-23
    • COGO OPTRONICS, INC.
    • LIU, Jian-Yu
    • H01S3/082
    • H01S5/141G02F1/216H01S3/1062H01S5/06255
    • A tunable laser has a gain material (10) and a mirror (60) defining an external resonant cavity (70). A tunable Fabry-Perot etalon (40) disposed along the optical path between the mirror (60) and the gain material (10) includes a liquid crystal layer (44) having a variable refractive index to tune the transmission peaks of the etalon (40) and the resonant frequency of the laser resonant cavity (70), A second etalon (30) having a fixed set of transmission peaks can also be included in the laser resonant cavity (70). The tunable etalon (40) is then tuned to select a resonant frequency corresponding to one of the transmission peaks of the fixed etalon (30).
    • 可调谐激光器具有限定外部谐振腔(70)的增益材料(10)和反射镜(60)。 沿着反射镜(60)和增益材料(10)之间的光路布置的可调法布里 - 珀罗标准具(40)包括具有可变折射率的液晶层(44),以调谐标准具(40)的透射峰值 )和激光谐振腔(70)的谐振频率,具有固定的透射峰集合的第二标准具(30)也可以包括在激光谐振腔(70)中。 然后调节可调标准具(40)以选择对应于固定标准具(30)的传输峰值之一的谐振频率。
    • 3. 发明申请
    • ELECTRICALLY TUNABLE TERAHERTZ LASER OSCILLATION DEVICE
    • 电动可调TERAHERTZ激光振荡装置
    • WO2008075795A1
    • 2008-06-26
    • PCT/JP2007/075234
    • 2007-12-20
    • CANON KABUSHIKI KAISHASEKIGUCHI, RyotaOUCHI, Toshihiko
    • SEKIGUCHI, RyotaOUCHI, Toshihiko
    • H01S1/02H01S5/0625H01S5/34H01S5/227H01S5/30
    • H01S1/02B82Y20/00H01S5/06255H01S5/06256H01S5/2213H01S5/227H01S5/3027H01S5/3031H01S5/3402H01S5/3422
    • To provide an oscillation device having a long oscillation wavelength (THz) in which wavelength variable width is relatively broad and wavelength sweep rate is relatively high. An oscillation device includes a gain medium (103) having a gain with respect to an electromagnetic wave to be oscillated, cavity structures (104, 105) for resonating the electromagnetic wave, and energy injection means (121, 122A) and for injecting pumping energy into the gain medium. The gain medium is sandwiched between a first negative permittivity medium (102, 112) and a second magnetic permittivity medium (101, 111) each of which real part of permittivity with respect to the electromagnetic wave is negative. Electric field application means (122B) is provided for at least one of the first negative permittivity medium and the second negative permittivity medium to apply an electric field for changing a depletion region formed at a boundary part with the gain medium.
    • 为了提供具有波长可变宽度相对较宽且波长扫描速率相对较高的长振荡波长(THz)的振荡装置。 本发明公开了一种振荡装置,包括:相对于要振荡的电磁波具有增益的增益介质(103),用于谐振电磁波的腔结构(104,105),以及能量注入装置(121,122A),并用于注入泵浦能量 进入增益介质。 增益介质夹在第一负介电常数介质(102,112)和第二介电常数介质(101,111)之间,每个介质的介电常数相对于电磁波的实部为负值。 为第一负介电常数介质和第二负介电常数介质中的至少一个提供电场施加装置(122B)以施加用于改变在与增益介质的边界部分处形成的耗尽区的电场。
    • 4. 发明申请
    • SEMI-INTEGRATED DESIGNS FOR EXTERNAL CAVITY TUNABLE LASERS
    • 用于外部空心柔性激光器的集成设计
    • WO2005101595A1
    • 2005-10-27
    • PCT/US2005/009193
    • 2005-03-18
    • INTEL CORPORATIONSOCHAVA, SergeiCHAPMAN, WilliamKOZLOVSKY, William
    • SOCHAVA, SergeiCHAPMAN, WilliamKOZLOVSKY, William
    • H01S5/026
    • H01S5/06255H01S5/0265H01S5/06256H01S5/06804H01S5/0687H01S5/141H01S5/142
    • Semi-integrated external cavity diode laser (ECDL) (300A) designs including integrated structures (302A) comprising a gain section (400), phase control section (402), and optional modulator section (404). Each integrated structure includes a waveguide (406) that passes through each of the sections. A mirror (408) is defined in the structure to define one end of a laser cavity. A reflective element (314) is disposed generally opposite a rear facet (410) of the gain section (400), forming an external cavity therebetween. A tunable filter (310) is disposed in the external cavity to effectuate tuning of the laser. During operation, a modulated drive signal (332) is provided to the phase control section (402). This modulates an optical path length of the laser cavity, which produces an intensity (amplitude) modulation in the laser output. A detector is employed to produce a feedback signal indicative of the intensity modulation that is used for tuning the laser in accordance with a wavelength locking servo loop. Upon passing through the modulator section (404), an optical signal is modulated with data (722).
    • 包括包括增益部分(400),相位控制部分(402)和可选调制器部分(404)的集成结构(302A)的半集成外部空腔二极管激光器(ECDL)(300A)。 每个集成结构包括通过每个部分的波导(406)。 在该结构中限定了反射镜(408),以限定激光腔的一端。 反射元件(314)大体上与增益部分(400)的后面(410)相对设置,在它们之间形成一个外部空腔。 可调滤光器(310)设置在外腔中以实现激光的调谐。 在操作期间,将调制驱动信号(332)提供给相位控制部分(402)。 这调制激光腔的光程长度,这在激光输出中产生强度(幅度)调制。 采用检测器产生指示根据波长锁定伺服环路调谐激光器的强度调制的反馈信号。 在通过调制器部分(404)之后,用数据(722)调制光信号。
    • 5. 发明申请
    • A METHOD FOR FREQUENCY AND MODE STABILISATION OF A TUNEABLE LASER
    • 一种可调节激光的频率和模式稳定性的方法
    • WO01076028A1
    • 2001-10-11
    • PCT/SE2001/000478
    • 2001-03-07
    • H01S5/0625H01S5/0687
    • H01S5/06255H01S5/0687
    • A method of frequency and mode stabilising a tuneable laser, wherein one or more measurable magnitudes is/are measured, wherein the laser has been characterised with respect to a number of operation points, and wherein the values of the measurable magnitude or magnitudes are stored in a microprocessor or corresponding device.The invention is characterised by causing the values of one or more of the measurable magnitudes to be non-extreme values; storing the values of such non-extreme values as a quotient where the numerator is the derivative of a measurable magnitude delta Y with respect to a control current delta I to one laser section, and where the denominator is the derivative of another measurable magnitude delta Z with respect to said control current delta I; and using the stored values to control the laser to a desired operation point.
    • 一种频率和模式稳定可调激光器的方法,其中测量一个或多个可测量的幅度,其中所述激光器相对于多个操作点被表征,并且其中所述可测量幅度或幅度的值被存储在 微处理器或相应的装置。本发明的特征在于使一个或多个可测量幅度的值为非极值; 存储这样的非极值的值,其中分子是相对于一个激光部分的控制电流增量I的可测量幅度ΔY的导数的商,并且其中分母是另一个可测量幅度δZ的导数 相对于所述控制电流ΔI; 并使用存储的值将激光器控制到期望的操作点。
    • 6. 发明申请
    • A METHOD OF CHARACTERISING A TUNEABLE LASER
    • 表征可激光激光的方法
    • WO00054380A1
    • 2000-09-14
    • PCT/SE2000/000292
    • 2000-02-15
    • H01S5/00H01S5/0625H01S5/0683H01S5/0687H01S5/125H01S5/068H01L33/00H01S3/10
    • H01S5/0687H01S5/0014H01S5/06255H01S5/06256H01S5/06832
    • A method of evaluating a tuneable laser (15) and determining suitable laser operation points, wherein said laser includes two or more tuneable sections in which injected currents can be varied, of which sections at least one is a reflector section and one is a phase section. The invention is characterised by leading part of the light emitted by the laser (15) to an arrangement which includes a Fabry-Perot filter (32) and a first detector (33) and a second detector (34), said detectors being adapted to measure the power of the laser and to deliver a corresponding detector signal (I1, I2); arranging the detectors relative to the Fabry-Perot filter so that the detector signals (I1, I2) will contain information relating at least to the wavelength of the detected light; sweeping the currents through the tuning sections (17, 18, 19) such as to pass through different current combinations; measuring the ratio between the two detector signals (I1, I2) during said sweep, wherein the reflector current (17) is the inner sweep variable which is swept in one direction and then in an opposite direction back to its start value; and storing the control combination for said tuning currents when the ratio between the detector signals (I1, I2) lies within a predetermined range signifying that the emitted light lies within one of a number of wavelengths given by the Fabry-Perot filter (32) and said ratio lies within said predetermined range for a given reflector current in both sweep directions of said reflector current.
    • 一种评估可调谐激光器(15)并确定合适的激光器操作点的方法,其中所述激光器包括两个或更多个可调部分,其中注入电流可以改变,其中至少一个是反射器部分,一个是相位部分 。 本发明的特征在于将由激光器(15)发射的光的一部分引导到包括法布里 - 珀罗滤光器(32)和第一检测器(33)和第二检测器(34)的布置,所述检测器适于 测量激光器的功率并传送相应的检测器信号(I1,I2); 将检测器相对于法布里 - 珀罗滤波器布置,使得检测器信号(I1,I2)将包含至少与检测到的光的波长有关的信息; 扫过电流通过调谐部分(17,18,19),以便通过不同的电流组合; 在所述扫描期间测量两个检测器信号(I1,I2)之间的比率,其中反射器电流(17)是在一个方向上扫过并且然后以相反方向扫描到其起始值的内部扫描变量; 以及当检测器信号(I1,I2)之间的比率在预定范围内时,存储用于所述调谐电流的控制组合,其表示发射的光位于由法布里 - 珀罗滤波器(32)给出的多个波长之一内;以及 对于所述反射器电流的两个扫描方向上的给定反射器电流,所述比率在所述预定范围内。
    • 9. 发明申请
    • WAVELENGTH CONTROL OF A DUAL-RING LASER
    • 双环激光器的波长控制
    • WO2017127203A1
    • 2017-07-27
    • PCT/US2016/067790
    • 2016-12-20
    • ORACLE INTERNATIONAL CORPORATION
    • LEE, Jin-HyoungZHENG, XuezheKRISHNAMOORTHY, Ashok V.
    • H01S5/026G02B6/12H01S5/0625H01S5/10H01S5/14H01S5/06
    • H01S5/0612G02B6/00G02B6/12007H01S5/026H01S5/0261H01S5/06255H01S5/1007H01S5/1032H01S5/142
    • An optical source includes a semiconductor optical amplifier that provides an optical signal, and a photonic chip with first and second ring resonators that operate as Vernier rings. When the optical source is operated below a lasing threshold, one or more thermal-tuning mechanisms, which may be thermally coupled to the first ring resonator and/or the second ring resonator, may be adjusted to align resonances of the first ring resonator and the second ring resonator based on measured optical power on a shared optical waveguide that is optically coupled to the first and second ring resonators. Then, when the optical source is operated above the lasing threshold, a common thermal-tuning mechanism may be adjusted to lock the aligned resonances with an optical cavity mode of the optical source based on a measured optical power on an optical waveguide that is optically coupled to the first ring resonator.
    • 光源包括提供光信号的半导体光放大器和具有作为游标环操作的第一和第二环谐振器的光子芯片。 当光源在激射阈值以下操作时,可以调节可以热耦合到第一环形谐振器和/或第二环形谐振器的一个或多个热调节机构,以调节第一环形谐振器和第二环形谐振器的谐振 基于在与第一和第二环形谐振器光耦合的共享光波导上的测得的光功率来确定第二环形谐振器。 然后,当光源在激射阈值以上操作时,可以调整共同的热调谐机构以基于光耦合的光波导上的测量的光功率来锁定与光源的光腔模式对准的共振 到第一个环形谐振器。