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首页> 外文期刊>Applied Physics Letters >Angle-resolved photoemission spectroscopy with 9-eV photon-energy pulses generated in a gas-filled hollow-core photonic crystal fiber
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Angle-resolved photoemission spectroscopy with 9-eV photon-energy pulses generated in a gas-filled hollow-core photonic crystal fiber

机译:充气空心空心光子晶体光纤中产生的9 eV光子能量脉冲的角度分辨光发射光谱

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摘要

A recently developed source of ultraviolet radiation, based on optical soliton propagation in a gas-filled hollow-core photonic crystal fiber, is applied here to angle-resolved photoemission spectroscopy (ARPES). Near-infrared femtosecond pulses of only few μJ energy generate vacuum ultraviolet radiation between 5.5 and 9 eV inside the gas-filled fiber. These pulses are used to measure the band structure of the topological insulator Bi_2Se_3 with a signal to noise ratio comparable to that obtained with high order harmonics from a gas jet. The two-order-of-magnitude gain in efficiency promises time-resolved ARPES measurements at repetition rates of hundreds of kHz or even MHz, with photon energies that cover the first Brillouin zone of most materials.
机译:基于在气体填充的空心光子晶体光纤中的孤子传播的最新开发的紫外线辐射源,在这里应用于角度分辨光发射光谱法(ARPES)。仅几微焦耳能量的近红外飞秒脉冲在充气光纤内部产生5.5到9 eV之间的真空紫外辐射。这些脉冲用于测量拓扑绝缘体Bi_2Se_3的能带结构,其信噪比可与从气体射流获得的高次谐波获得的信噪比相比。效率的两个数量级的增益保证了以时间分辨的ARPES测量,其重复频率为数百kHz甚至MHz,其光子能量覆盖了大多数材料的第一个布里渊区。

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  • 来源
    《Applied Physics Letters 》 |2015年第9期| 091101.1-091101.4| 共4页
  • 作者

    H. Bromberger; A. Ermolov; F. Belli; H. Liu; F. Calegari; M. Chavez-Cervantes; M. T. Li; C. T. Lin; A. Abdolvand; P. St. J. Russell; A. Cavalleri; J. C. Travers; I. Gierz;

  • 作者单位

    Max Planck Institute for the Structure and Dynamics of Matter, Lumper Chaussee 149, 22761 Hamburg, Germany;

    Max Planck Institute for the Science of Light, Guenther-Scharowsky-Str. 1, 91058 Erlangen, Germany;

    Max Planck Institute for the Science of Light, Guenther-Scharowsky-Str. 1, 91058 Erlangen, Germany;

    Max Planck Institute for the Structure and Dynamics of Matter, Lumper Chaussee 149, 22761 Hamburg, Germany;

    Max Planck Institute for the Structure and Dynamics of Matter, Lumper Chaussee 149, 22761 Hamburg, Germany,Institute for Photonics and Nanotechnologies, IFN-CNR, Piazza Leonardo da Vinci 32,I-20133 Milano, Italy;

    Max Planck Institute for the Structure and Dynamics of Matter, Lumper Chaussee 149, 22761 Hamburg, Germany;

    Max Planck Institute for Solid State Research, Heisenbergstr. 1, 70569 Stuttgart, Germany;

    Max Planck Institute for Solid State Research, Heisenbergstr. 1, 70569 Stuttgart, Germany;

    Max Planck Institute for the Science of Light, Guenther-Scharowsky-Str. 1, 91058 Erlangen, Germany;

    Max Planck Institute for the Science of Light, Guenther-Scharowsky-Str. 1, 91058 Erlangen, Germany;

    Max Planck Institute for the Structure and Dynamics of Matter, Lumper Chaussee 149, 22761 Hamburg, Germany,Clarendon Laboratory, Department of Physics, University of Oxford, Parks Rd. Oxford OX1 3PU, United Kingdom;

    Max Planck Institute for the Science of Light, Guenther-Scharowsky-Str. 1, 91058 Erlangen, Germany;

    Max Planck Institute for the Structure and Dynamics of Matter, Lumper Chaussee 149, 22761 Hamburg, Germany;

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