会员体验
专利管家(专利管理)
工作空间(专利管理)
风险监控(情报监控)
数据分析(专利分析)
侵权分析(诉讼无效)
联系我们
交流群
官方交流:
QQ群: 891211   
微信请扫码    >>>
现在联系顾问~
热词
    • 5. 发明申请
    • OPTO-ELECTRONIC DEVICE AND PULSE PROCESSING METHOD
    • OPTO-ELECTRONIC设备和脉冲处理方法
    • US20150131685A1
    • 2015-05-14
    • US14395570
    • 2012-04-20
    • Agustin SchiffrinRalph ErnstorferFerenc KrauszTim Paasch-Colberg
    • Agustin SchiffrinRalph ErnstorferFerenc KrauszTim Paasch-Colberg
    • H01S3/10G01J11/00
    • H01S3/10G01J11/00H01L31/03044H01L31/0328H01L31/09Y02E10/544
    • An opto-electronic device (100) for processing optical and electric pulses includes a photoconductor device (10) with a sensor section (11) which is made of a band gap material and which has electrical sensor contacts (12, 13), and a signal processing device (20) which is connected with the sensor contacts (12, 13), wherein the photoconductor device (10) is adapted to create a photocurrent between the sensor contacts (12, 13) in response to an irradiation with ultra-short driving laser pulses (1) having a photon energy smaller than the energy band gap of the band gap material, having a non-zero electric field component (3) oriented parallel with a line (4) between the electrical sensor contacts (12, 13), and causing a charge carrier displacement in the band gap material, and wherein the signal processing device (20) is configured for an output of an electric signal being characteristic for at least one of carrier-envelope phase (CE phase), intensity, temporal properties, spectral intensity and spectral phase of the driving laser pulses (1). Furthermore, a laser source device including the opto-electronic device and pulse processing method for processing optical and electric pulses are described.
    • 一种用于处理光和电脉冲的光电器件(100)包括具有传感器部分(11)的光电导体装置(10),传感器部分(11)由带隙材料制成,并具有电传感器触点(12,13) 信号处理装置(20),其与所述传感器触点(12,13)连接,其中所述光电导体装置(10)适于响应于超短的辐射而在所述传感器触点(12,13)之间产生光电流 驱动具有小于带隙材料的能带隙的光子能量的激光脉冲(1),具有与电传感器触头(12,13)之间的线(4)平行定向的非零电场分量(3) ),并且引起带隙材料中的载流子位移,并且其中信号处理装置(20)被配置为用于输出电信号,其特征在于载波包络相位(CE相位),强度, 时间性质,光谱强度 驱动激光脉冲的精度和光谱相位(1)。 此外,描述了包括用于处理光和电脉冲的光电装置和脉冲处理方法的激光源装置。
    • 7. 发明授权
    • Dispersive dielectric mirror
    • 分散电介质镜
    • US5734503A
    • 1998-03-31
    • US289086
    • 1994-08-11
    • Robert SzipocsFerenc Krausz
    • Robert SzipocsFerenc Krausz
    • G02B5/08H01S3/00H01S3/098G02B1/10
    • G02B5/0883G02B5/0891H01S2301/08H01S3/0057Y10S359/90
    • Dispersive dielectric mirror exhibiting a monotonic, more particularly nearly linear group delay versus frequency function over a wide frequency range within the high reflectivity band of the mirror, which group delay is introduced on electromagnetic wavepackets, more particularly, on light pulses, when the electromagnetic wave is reflected on the mirror. The dispersive dielectric mirror can be well applied for dispersion control in electromagnetic impulse technique from microwave frequencies to X-rays, more particularly, in ultrashort-pulse-laser technique and its applications. One of the concrete applications of the dispersive dielectric mirrors is to solid-state-laser intracavity dispersion control of femtosecond pulse solid-state-laser oscillators instead of using of prism pairs. The laser built in this way is more compact, reliable and user friendly than its prism-pair-dispersion controlled predecessors.
    • 在反射镜的高反射率带内在宽频率范围内表现出单调的,更特别是近似线性的组延迟与频率函数的分散介电镜,其中电磁波分组引入组延迟,更具体地说,在光脉冲上引入电磁波 反映在镜子上。 分散介质镜可以很好地应用于从微波频率到X射线的电磁脉冲技术中的色散控制,更具体地说在超短脉冲激光技术及其应用中。 分散电介质镜的具体应用之一是飞秒脉冲固态激光振荡器的固态激光腔内色散控制,而不是使用棱镜对。 以这种方式构建的激光器比其棱镜对色散控制的前辈更紧凑,可靠和用户友好。
    • 8. 发明授权
    • Method of generating enhanced intra-resonator laser light, enhancement resonator and laser device
    • 产生增强型谐振器内激光,增强谐振器和激光装置的方法
    • US08976834B2
    • 2015-03-10
    • US13821003
    • 2010-09-06
    • Jan KasterIoachim PupezaErnst FillFerenc Krausz
    • Jan KasterIoachim PupezaErnst FillFerenc Krausz
    • H01S3/08H01S3/00H05G2/00
    • H01S3/08059H01S3/0057H01S3/0092H05G2/00
    • A method of generating intra-resonator laser light (1) comprises the steps of coupling input laser light (2), e. g. laser pulse or continuous-wave light, into an enhancement resonator (20), which comprises at least two curved resonator mirrors (21, 22, 23, 24) and which is free of a laser light amplifying medium, said at least two curved resonator mirrors (21, 22, 23, 24) being consecutively arranged and spanning at least one resonator path with a predetermined resonator length (Lres), wherein said at least two curved resonator mirrors (21, 22, 23, 24) providing at least two pairs of consecutive curved resonator mirrors which are serially coupled along said at least one resonator path, and coherent addition of the input laser light (2) in the enhancement resonator so that the intra-resonator laser light (1) is formed, wherein said at least two pairs of consecutive curved resonator mirrors each have a detuned concentric configuration, which deviates from a concentric configuration with regard to at least one of a distance between the curved mirrors. and an angle of incidence on the curved mirror surfaces. Furthermore, an enhancement resonator (20), in particular being configured for generating intra-resonator laser light (1), a laser device (100) including the enhancement resonator device (20) and applications of the enhancement resonator device (20) are described.
    • 产生谐振腔内激光的方法(1)包括以下步骤:将输入激光(2) G。 激光脉冲或连续波光转换成包括至少两个弯曲谐振镜(21,22,23,24)并且不含激光放大介质的增强谐振器(20),所述至少两个弯曲谐振器 连续布置并跨越具有预定谐振器长度(Lres)的至少一个谐振器路径的反射镜(21,22,23,24),其中所述至少两个弯曲谐振器反射镜(21,22,23,24)提供至少两个 成对的沿着所述至少一个谐振器路径串联耦合的连续弯曲谐振器反射镜,以及输入激光(2)在增强谐振器中的相干相加,使得形成共振腔内激光(1),其中所述 至少两对连​​续的弯曲谐振镜各自具有失谐的同心配置,其相对于曲面镜之间的距离中的至少一个偏离同心配置。 以及弯曲镜面上的入射角。 此外,描述特别是被配置用于产生共振腔内激光(1)的增强谐振器(20),包括增强谐振器装置(20)的激光装置(100)和增强谐振装置(20)的应用。 。