Kun Zhao scite author profile

A single isolated attosecond pulse of 67 as was composed from an extreme UV supercontinuum covering 55-130 eV generated by the double optical gating technique. Phase mismatch was used to exclude the single-atom cutoff of the spectrum that possesses unfavorable attochirp, allowing the positive attochirp of the remaining spectrum to be compensated by the negative dispersion of a zirconium foil. Two algorithms, PROOF and FROG-CRAB, were employed to retrieve the pulse from the experimental spectrogram, yielding nearly identical results.

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The generation, characterization and applications of broadband isolated attosecond pulses

Chini

2014

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53-attosecond X-ray pulses reach the carbon K-edge

et al. 2017

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The motion of electrons in the microcosm occurs on a time scale set by the atomic unit of time—24 attoseconds. Attosecond pulses at photon energies corresponding to the fundamental absorption edges of matter, which lie in the soft X-ray regime above 200 eV, permit the probing of electronic excitation, chemical state, and atomic structure. Here we demonstrate a soft X-ray pulse duration of 53 as and single pulse streaking reaching the carbon K-absorption edge (284 eV) by utilizing intense two-cycle driving pulses near 1.8-μm center wavelength. Such pulses permit studies of electron dynamics in live biological samples and next-generation electronic materials such as diamond.

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Mapping wetland changes in China between 1978 and 2008

et al. 2012

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Generation of Isolated Attosecond Pulses with 20 to 28 Femtosecond Lasers

et al. 2009

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Isolated attosecond pulses are powerful tools for exploring electron dynamics in matter. So far, such extreme ultraviolet pulses have only been generated using high power, few-cycle lasers, which are very difficult to construct and operate. We propose and demonstrate a technique called generalized double optical gating for generating isolated attosecond pulses with 20 fs lasers from a hollow-core fiber and 28 fs lasers directly from an amplifier. These pulses, generated from argon gas, are measured to be 260 and 148 as by reconstructing the streaked photoelectron spectrograms. This scheme, with a relaxed requirement on laser pulse duration, makes attophysics more accessible to many laboratories that are capable of producing such multicycle laser pulses.

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China’s wetland change (1990–2000) determined by remote sensing

Gong

Niu

Cheng

et al. 2010

Sci. China Earth Sci.

193

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Dependence of high-order-harmonic-generation yield on driving-laser ellipticity

et al. 2012

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High-order-harmonic-generation yield is remarkably sensitive to driving laser ellipticity, which is interesting from a fundamental point of view as well as for applications. The most well-known example is the generation of isolated attosecond pulses via polarization gating. We develop an intuitive semiclassical model that makes use of the recently measured initial transverse momentum of tunneling ionization. The model is able to predict the dependence of the high-order-harmonic yield on driving laser ellipticity and is in good agreement with experimental results and predictions from a numerically solved time-dependent Schrödinger equation.

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Off-stoichiometry effects on BiFeO3 thin films

et al. 2011

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Kun Zhao

Tailoring a 67 attosecond pulse through advantageous phase-mismatch

The generation, characterization and applications of broadband isolated attosecond pulses

53-attosecond X-ray pulses reach the carbon K-edge

Mapping wetland changes in China between 1978 and 2008

Generation of Isolated Attosecond Pulses with 20 to 28 Femtosecond Lasers

China’s wetland change (1990–2000) determined by remote sensing

Dependence of high-order-harmonic-generation yield on driving-laser ellipticity

Off-stoichiometry effects on BiFeO3 thin films

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