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    • 2. 发明授权
    • CO.sub.2 Laser wave guide
    • CO2激光波导
    • US4446558A
    • 1984-05-01
    • US319706
    • 1981-11-09
    • Gunther SeppPeter Dyrna
    • Gunther SeppPeter Dyrna
    • H01S3/03H01S3/038H01S3/02
    • H01S3/0315H01S3/038
    • A CO.sub.2 laser wave guide, which is excitable by a high frequency signal,as two boron nitride bodies (11a, 11b; 111a, 111b) which are held in position in a housing (10) by a specially shaped spring (14, 114) which presses the boron nitride bodies against the inner surface (10a) of the housing for good heat transfer and dissipation. A spacer (18) holds the boron nitride bodies apart to provide a gap (15) in which one electrode is held. The specially shaped spring operates, in addition to holding the boron nitride bodies in place, as the opposite electrode. This structure requires few parts and these parts do not have to meet high tolerance requirements, nor is it necessary to provide a high surface finish for the individual components.
    • 由高频信号激发的CO 2激光波导具有通过特殊形状的弹簧(14,114)保持在壳体(10)中的位置的两个氮化硼体(11a,11b; 111a,111b) 其将氮化硼体压靠在壳体的内表面(10a)上以获得良好的传热和散热。 间隔件(18)将氮化硼体保持分开,以提供保持一个电极的间隙(15)。 除了将氮化硼体保持在适当位置之外,特殊形状的弹簧也作为相对电极。 这种结构需要少量零件,并且这些部件不必满足高公差要求,也不需要为各个部件提供高表面光洁度。
    • 3. 发明授权
    • Process for the adaptive beam control of medium-energy laser weapons
    • 中能量激光武器自适应光束控制的过程
    • US06723974B1
    • 2004-04-20
    • US09246004
    • 1999-02-10
    • Gunther Sepp
    • Gunther Sepp
    • G01J120
    • F41H13/0056
    • A process for the adaptive beam control of medium-energy laser weapons for fighting electro-optical sensors and windows, wherein the behavior of the laser power reflected from a bright spot of the target and measured by a thermal image apparatus during increasing irradiation intensity is analyzed during a phase of measurement. The laser power to be emitted that will lead to the desired laser beam diameter or to the highest possible laser intensity at the target during the subsequent phase of fighting is then derived by calculation from this as well as other parameters influencing the thermal beam expansion. It is thus made possible that the laser does not always have to be operated with the maximum power, but only with the currently needed power during the phase of fighting, so that a saving is achieved in the consumption of primary laser energy. One example is explained.
    • 一种用于对电光传感器和窗户进行打击的中等能量激光武器的自适应光束控制的过程,其中分析了在增加辐射强度期间从目标的亮点反射并由热像仪设备测量的激光功率的行为 在测量阶段。 随后的战斗阶段,将产生将导致所需激光束直径或达到目标的最高可能激光强度的待发射的激光功率,然后通过计算以及影响热束扩展的其他参数得到。 因此,激光器并不总是必须以最大功率运行,而是仅在战斗阶段期间具有当前需要的功率,从而在初级激光能量的消耗中实现节省。 一个例子被解释。
    • 4. 发明授权
    • Weapons system for a laser
    • 激光武器系统
    • US5837918A
    • 1998-11-17
    • US696863
    • 1996-10-26
    • Gunther Sepp
    • Gunther Sepp
    • F41H13/00G01S7/491G01S7/495B64D1/04F41C27/00
    • F41H13/0056G01S7/491G01S7/495
    • A weapons system/device is provided for a dazzling laser with directed laser radiation with a laser operating in the visible range. This is integrated in a rifle-like carrier with an aiming device, range finder, and a portable power supply unit. The laser is adjustable in terms of beam divergence, energy to be emitted, and irradiation time. A control computer is provided for entering target reconnaissance parameters, as well as measuring instruments for determining these parameters with respect to a target subject and the environment. The controls/instrumentation are associated with the laser, wherein the control computer calculates the laser parameters (beam divergence, single pulse or pulse train, pulse energy and pulse count of the pulsed laser) necessary for the reversible dazzling of the eye on the basis of the target reconnaissance parameters entered, and it automatically presets and regulates the resulting laser power and the exposure time of the continuous laser.
    • PCT No.PCT / EP95 / 04588 Sec。 371日期1996年10月29日第 102(e)日期1996年10月29日PCT提交1995年11月22日PCT公布。 公开号WO96 / 18912 PCT 日期1996年6月20日为激光器在可见光范围内工作,提供了具有定向激光辐射的令人眼花缭乱的激光武器系统/装置。 它集成在具有瞄准装置,测距仪和便携式电源装置的步枪式载体中。 激光器可以根据光束发散,待发射的能量和照射时间来调节。 提供控制计算机用于输入目标侦察参数,以及用于确定相对于目标对象和环境的这些参数的测量仪器。 控制/仪器与激光器相关联,其中控制计算机基于以下方式计算眼睛的可逆耀眼所需的激光参数(光束发散度,单脉冲或脉冲序列,脉冲能量和脉冲激光的脉冲计数) 输入目标侦察参数,并自动预设和调节所产生的激光功率和连续激光的曝光时间。
    • 7. 发明授权
    • Laser distance and altitude measuring apparatus
    • 激光距离和高度测量仪器
    • US4978221A
    • 1990-12-18
    • US465764
    • 1990-01-16
    • Gunther Sepp
    • Gunther Sepp
    • G01S7/48G01S17/87
    • G01S7/4811G01S17/87G01S17/88G01S7/48
    • Two laser distance measuring functions are preformed on board of a ground-hugging cruise missile by at least one laser distance meter for taking downwardly directed altitude measurements and diagonally or slantedly forwardly directed distance measurements for producing corrected altitude signals for use in controlling the flight of the missile. Both types of measurements can be made by one laser distance meter that is tiltable in the required direction or two laser units are provided. The correction provides a clear recognition of artificial fog by evaluating both types of measured values in an intelligent signal processing unit which compares the intensities of the measured values from the same ground locations, determines the extinction coefficient of the fog and takes the angular distribution of the back-scattering intensity of the laser beams into consideration for correcting the altimeter readings.
    • 两个激光距离测量功能通过至少一个激光测距仪在地面拥抱的巡航导弹的板上进行,用于采取向下定向的高度测量和对角线或倾斜的向前定向的距离测量,用于产生用于控制飞行的校正高度信号 导弹。 两种类型的测量可以由一个可在所需方向上倾斜的激光测距仪进行,或者提供两个激光单元。 该校正通过评估智能信号处理单元中的两种类型的测量值来提供对人造雾的清晰识别,该智能信号处理单元比较来自相同地面位置的测量值的强度,确定雾的消光系数,并且采用 考虑到激光束的后向散射强度来校正高度计读数。