Your search keyword '"Bin Zeng"' showing total 23 results

1. Rotational Coherence Encoded in an 'Air-Laser' Spectrum of Nitrogen Molecular Ions in an Intense Laser Field

Author

Haisu Zhang, Chenrui Jing, Jinping Yao, Guihua Li, Bin Zeng, Wei Chu, Jielei Ni, Hongqiang Xie, Huailiang Xu, See Leang Chin, Kaoru Yamanouchi, Ya Cheng, and Zhizhan Xu

Subjects

Physics, QC1-999

Abstract

We investigate lasing action in aligned nitrogen molecular ions (N_{2}^{+}) produced in an intense laser field. We find that, besides the population inversion between the B^{2}Σ_{u}^{+}-X^{2}Σ_{g}^{+} states, which is responsible for the observed simulated amplification of a seed pulse, a rotational wave packet in the ground vibrational state (v=0) of the excited electronic B^{2}Σ_{u}^{+} state has been created in N_{2}^{+}. The rotational coherence can faithfully encode its characteristics into the amplified seed pulses, enabling reconstruction of rotational wave packets of molecules in a single-shot detection manner from the frequency-resolved laser spectrum. Our results suggest that the air laser can potentially provide a promising tool for remote characterization of coherent molecular rotational wave packets.

Published

2013

2. Anomalous properties in the normal and superconducting states of LaRu3Si2.

Author

Sheng Li, Bin Zeng, Xiangang Wan, Jian Tao, Fei Han, Huan Yang, Zhihe Wang, and Hai-Hu Wen

Subjects

*SUPERCONDUCTIVITY, *QUASIPARTICLES, *SUPERFLUIDITY, *PHONONS, *LATTICE dynamics

Abstract

Superconductivity in LaRu3Si2 with the Kagome lattice of Ru has been investigated. It is found that the normal-state specific heat C/T exhibits a deviation from the Debye model down to the lowest temperature. This may be induced by the existence of some high-frequency phonon modes or by the electron correlation effect. A relation C/T =ϒn + βT²- ATlnT which concerns the electron correlations can fit the data very well. The suppression to the superconductivity by the magnetic field is not the mean-field type, which is associated well with the observation of strong superconducting fluctuations. The field dependence of the induced quasiparticle density of states measured by the low-temperature specific heat shows a nonlinear feature, indicating the significant contributions given by the delocalized quasiparticles. The Wilson ratio determined for this material is about 2.88, indicating also a strong correlation effect. [ABSTRACT FROM AUTHOR]

Published

2011

3. Coupling of N2+ rotational states in an air laser from tunnel-ionized nitrogen molecules.

Author

Hongqiang Xie, Bin Zeng, Guihua Li, Wei Chu, Haisu Zhang, Chenrui Jing, Jinping Yao, Jielei Ni, Zhaohui Wang, Ziting Li, and Ya Cheng

Subjects

*NUCLEAR rotational states, *NITROGEN analysis, *LASER beams, *ELECTRON tunneling, *ELECTRON-electron interactions, *QUANTUM states

Abstract

We report on experimental and theoretical investigations of dynamic evolution of individual /f-branch laser lines from tunnel-ionized nitrogen molecules based on a pump-probe scheme. Our observation shows that the intensities of the R-branch laser lines exhibit rapid oscillations which can be decomposed into periodic oscillations at different frequencies. The oscillations can be attributed to the coupling between the rotational quantum states mediated either by the probe pulses or by the P-branch laser emission from the molecular ions. [ABSTRACT FROM AUTHOR]

Published

2014

4. Real-time observation of dynamics in rotational molecular wave packets by use of air-laser spectroscopy.

Author

Bin Zeng, Wei Chu, Guihua Li, Jinping Yao, Haisu Zhang, Jielei Ni, Chenrui Jing, Hongqiang Xie, and Ya Cheng

Subjects

*SUPERPOSITION principle (Physics), *WAVE packets, *PICOSECOND pulses, *FEMTOSECOND lasers, *QUANTUM states

Abstract

Molecular rotational spectroscopy based on a strong-field-ionization-induced nitrogen laser is employed to investigate the time evolution of the rotational wave packet composed by a coherent superposition of quantum rotational states created in a field-free molecular alignment. We show that this technique uniquely allows real-time observation of the ultrafast dynamics of the molecular rotational wave packet. Our analysis also shows that there exist two channels of generation of the nitrogen laser, shedding light on the population inversion mechanism behind the air laser generated by intense femtosecond laser pulses. [ABSTRACT FROM AUTHOR]

Published

2014

5. Direct generation of intense extreme-ultraviolet supercontinuum with 35-fs, 11-mj pulses from a femtosecond laser amplifier.

Author

Bin Zeng, Wei Chu, Guihua Li, Jinping Yao, Jielei Ni, Haisu Zhang, Ya Cheng, Zhizhan Xu, Yi Wu, and Zenghu Chang

Subjects

*FEMTOSECOND lasers, *ULTRAVIOLET radiation, *ELECTRONIC amplifiers, *PHOTONS, *KRYPTON, *ATTOSECOND pulses, *FORCE & energy

Abstract

We report on the generation of an intense extreme-ultraviolet (EUV) supercontinuum with photon energies spanning from 35 to 50 eV (i.e., supporting an isolated attosecond pulse with a duration of ∼271 as) by loosely focusing 35 fs, 11 mj pulses from a femtosecond laser amplifier into a 10-mm-long gas cell filled with krypton gas. The dramatic change in spectral and temporal properties of the driver pulses after passing through the gas cell indicates that propagation effects play a significant role in promoting the generation of the EUV supercontinuum. [ABSTRACT FROM AUTHOR]

Published

2012

6. Enhancement of peak intensity in a filament core with spatiotemporally focused femtosecond laser pulses.

Author

Bin Zeng, Wei Chu, Hui Gao, Weiwei Liu, Guihua Li, Haisu Zhang, Jinping Yao, Jielei Ni, See Leang Chin, Ya Cheng, and Zhizhan Xu

Subjects

*FEMTOSECOND lasers, *LASER beams, *OPTICAL resolution, *LASERS, *OPTICS

Abstract

We demonstrate that the peak intensity in the filament core, which is inherently limited by the intensity clamping effect during femtosecond laser filamentation, can be significantly enhanced using spatiotemporally focused femtosecond laser pulses. In addition, the filament length obtained by spatiotemporally focused femtosecond laser pulses is ~25 times shorter than that obtained by a conventional focusing scheme, resulting in improved high spatial resolution. [ABSTRACT FROM AUTHOR]

Published

2011

7. High-brightness switchable multiwavelength remote laser in air.

Author

Jinping Yao, Bin Zeng, Huailiang Xu, Guihua Li, Wei Chu, Jielei Ni, Haisu Zhang, See Leang Chin, Ya Cheng, and Zhizhan Xu

Subjects

*INDUSTRIAL lasers, *LASER design & construction, *ULTRASHORT laser pulses, *NONLINEAR optical spectroscopy, *OPTICAL methods for air pollution measurement, *CONDUCTION electrons

Abstract

We demonstrate a harmonic-seeded switchable multiwavelength laser in air driven by intense midinfrared femtosecond laser pulses, in which population inversion occurs at an ultrafast time scale (i.e., less than ~200 fs) owing to direct formation of excited molecular nitrogen ions by strong-field ionization of inner-valence electrons. The bright multiwavelength laser in air opens the perspective for remote detection of multiple pollutants based on nonlinear optical spectroscopy. [ABSTRACT FROM AUTHOR]

Published

2011

8. Field-induced quadrupolar quantum criticality in PrV2AI20.

Author

Yasuyuki Shimura, Masaki Tsujimoto, Bin Zeng, Balicas, Luis, Akito Sakai, and Satoru Nakatsuji

Abstract

PrV2AI20 is a heavy-fermion superconductor based on the cubic Γ3 doublet that exhibits nonmagnetic quadrupolar ordering below ~0.6 K. Our magnetotransport study on PrV2AI20 reveals field-induced quadrupolar quantum criticality at μ0Hc ~ 11 T applied along the [111] direction. Near the critical field poHc required to suppress the quadrupolar state, we find a marked enhancement of the resistivity ρ(H, T), a divergent quasiparticle effective mass and concomitant non-Fermi-liquid (NFL) behavior [i.e.,ρ(T) α Tn with n ⩽ 0.5], We also observe the Shubnikov-de Haas effect above μ0Hc, indicating effective mass enhancement or m*/m0 ~ 10. This reveals the competition between the nonmagnetic Kondo effect and the intersite quadrupolar coupling which leads to pronounced NFL behavior in an extensive region of T and μ0H emerging from the quantum-critical point. [ABSTRACT FROM AUTHOR]

Published

2015

9. Power-law-like correlation between condensation energy and superconducting transition temperatures in iron pnictide/chalcogenide superconductors: Beyond the BCS understanding.

Author

Jie Xing, Sheng Li, Bin Zeng, Gang Mu, Bing Shen, Schneeloch, J., Zhong, R. D., Liu, T. S., Gu, G. D., and Hai-Hu Wen

Subjects

*CONDENSATION, *SUPERCONDUCTING transitions, *TRANSITION temperature, *CHALCOGENIDES, *IRON-based superconductors

Abstract

Superconducting condensation energy U0int has been determined by integrating the electronic entropy in various iron pnictide/chalcogenide superconducting systems. It is found that U0int ∝ Tcn with n = 3-4, which is in sharp contrast to the simple BCS prediction ψ0BCS = 1/2NFΔs2, with NF the quasiparticle density of states at the Fermi energy and Δs the superconducting gap. A similar correlation holds if we compute the condensation energy through U0cal = 3YneffΔs2/4π2k2B, with Yneff the effective normal state electronic specific heat coefficient. This indicates a general relationship Yneff ∝ Tcm with m = 1-2, which is not predicted by the BCS scheme. A picture based on quantum criticality is proposed to explain this phenomenon. [ABSTRACT FROM AUTHOR]

Published

2014

10. Signature of superradiance from a nitrogen-gas plasma channel produced by strong-field ionization.

Author

Guihua Li, Chenrui Jing, Bin Zeng, Hongqiang Xie, Jinping Yao, Wei Chu, Jielei Ni, Haisu Zhang, Huailiang Xu, Ya Cheng, and Zhizhan Xu

Subjects

*SUPERRADIANCE, *FIELD ionization, *ELECTRIC field effects, *LASER pulses, *IONIZATION (Atomic physics)

Abstract

Recently, Yao et al. demonstrated the creation of coherent emissions in nitrogen gas with two-color (800 nm + 400 nm) ultrafast laser pulses [J. Yao, G. Li, C. Jing, B. Zeng, W. Chu, J. Ni, H. Zhang, H. Xie, C. Zhang, H. Li, H. Xu, S. L. Chin, Y. Cheng, and Z. Xu, New J. Phys. 15, 023046 (2013)]. Based on this two-color scheme, here we report on systematic investigation of temporal characteristics of the radiation emitted at 391 nm [N2+: B²σu+ (n = 0) - X²σg++ (n = 0)] by experimentally examining its temporal profiles with the increase of the plasma channel induced by the intense 800-nm femtosecond laser pulses at a nitrogen-gas pressure of ~25 mbar. We reveal unexpected temporal profiles of the coherent emissions, which show significant superradiance signatures owing to the cooperation of an ensemble of excited N2+ molecules that are coherently radiating in phase. Our findings shed more light on the mechanisms behind the coherent laserlike emissions induced by strong-field ionization of molecules. [ABSTRACT FROM AUTHOR]

Published

2014

11. Unexpected breakdown of the simple man's model for strong-field photoionization in the high-energy recollision region.

Author

Wei Chu, Mingyan Wu, Bin Zeng, Jinping Yao, Jielei Ni, Hui Xiong, Han Xu, Zhiyang Lin, Huipeng Kang, Wei Quan, Chen, J., Liu, X., Ya Cheng, and Zhizhan Xu

Subjects

*ELECTRIC breakdown, *PHOTOIONIZATION, *COLLISIONS (Nuclear physics), *ANGULAR distribution (Nuclear physics), *PHOTOELECTRONS, *WAVE packets, *COULOMB potential

Abstract

We present experimental and theoretical evidence on the breakdown of the simple man's model in the high-energy recollision region by examining both the energy-resolved angular distribution of photoelectrons in above-threshold ionization and the spectrum of high-order harmonics generated in elliptically polarized driver fields. With the help of a semiclassical model calculation, we show that, surprisingly, even for the high-energy recollision electrons, their wave-packet dynamics can be influenced strongly by the Coulomb field. [ABSTRACT FROM AUTHOR]

Published

2012

12. Comparative investigation of third- and fifth-harmonic generation in atomic and molecular gases driven by midinfrared ultrafast laser pulses.

Author

Jielei Ni, Jinping Yao, Bin Zeng, Wei Chu, Guihua Li, Haisu Zhang, Chenrui Jing, Chin, S. L., Cheng, Y., and Xu, Z.

Subjects

*ELECTRICAL harmonics, *GASES, *LASER beams, *WAVELENGTHS, *REFRACTIVE index, *PLASMA gases

Abstract

We report on the comparative experimental investigation on third- and fifth-harmonic generation (THG and FHG) in atomic and molecular gases driven by midinfrared ultrafast laser pulses at a wavelength of ~ 1500 nm. We observe that the conversion efficiencies of both the THG and FHG processes saturate at similar peak intensities close to ~1.5 x 1014 W/cm⊃2 for argon, nitrogen, and air, whose ionization potentials are close to each other. Near the saturation intensity, the ratio of yields of the FHG and THG reaches ~10-1 for all the gases. Our results show that high-order Kerr effect seems to exist; however, contribution from the fourth-order Kerr refractive index coefficient alone is insufficient to balance the Kerr self-focusing without the assistance of plasma generation. [ABSTRACT FROM AUTHOR]

Published

2011

13. Giant Anisotropic Magnetoresistance due to Purely Orbital Rearrangement in the Quadrupolar Heavy Fermion Superconductor PrV2Al20.

Author

Yasuyuki Shimura, Qiu Zhang, Bin Zeng, Rhodes, Daniel, Schönemann, Rico, Masaki Tsujimoto, Yosuke Matsumoto, Akito Sakai, Toshiro Sakakibara, Koji Araki, Wenkai Zheng, Qiong Zhou, Luis Balicas, and Satoru Nakatsuji

Subjects

*ENHANCED magnetoresistance, *GIANT magnetoresistance, *QUADRUPOLE moments, *SUPERCONDUCTORS, *FERMI surfaces, *SEMIMETALS, *PRASEODYMIUM

Abstract

We report the discovery of giant and anisotropic magnetoresistance due to the orbital rearrangement in a non magnetic correlated metal. In particular, we measured the magnetoresistance under fields up to 31.4 T in the cubic Pr-based heavy fermion superconductor PrV2Al20 with a non magnetic Γ3 doublet ground state, exhibiting antiferroquadrupole ordering below 0.7 K. For the [100] direction, we find that the high-field phase appears between 12 and 25 T, accompanied by a large jump at 12 T in the magnetoresistance (ΔMR∼100%) and in the anisotropic magnetoresistivity ratio by ∼20%. These observations indicate that the strong hybridization between the conduction electrons and anisotropic quadrupole moments leads to the Fermi surface reconstruction upon crossing the field-induced antiferroquadrupole (orbital) rearrangement. [ABSTRACT FROM AUTHOR]

Published

2019

14. Onset of nonlinear self-focusing of femtosecond laser pulses in air: Conventional vs spatiotemporal focusing.

Author

Ya Cheng, Hongqiang Xie, Zhaohui Wang, Guihua Li, Bin Zeng, Fei He, Wei Chu, Jinping Yao, and Lingling Qiao

Subjects

*FEMTOSECOND lasers, *NONLINEAR optics, *SPATIOTEMPORAL processes, *RAYLEIGH number, *LASER pulses

Abstract

We report an experimental comparison of critical intensities of nonlinear self-focusing in air with conventional focusing and spatiotemporal focusing schemes. Our results show that the conventional focusing with the focal lens completely filled with the incident beam allows for a higher peak intensity near the focus against the nonlinear self-focusing than the spatiotemporal focusing scheme. This is because in the high-numerical-aperture condition, the focal spot will have a compact size, which results in a high focal intensity. Meanwhile, the Rayleigh length of the focused beam will be substantially shortened, which efficiently postpones the onset of self-focusing. [ABSTRACT FROM AUTHOR]

Published

2015

15. Wavelength-dependent ionization suppression of diatomic molecules in intense circularly polarized laser fields.

Author

HuiPeng Kang, ZhiYang Lin, SongPo Xu, ChuanLiang Wang, Wei Quan, XuanYang Lai, XiaoJun Liu, XinYan Jia, XiaoLei Hao, Jing Chen, Wei Chu, JinPing Yao, Bin Zeng, Ya Cheng, and ZhiZhan Xu

Subjects

*DIATOMIC molecules, *IONIZATION of gases, *POLARIZED beams (Nuclear physics), *WAVELENGTHS, *XENON spectra, *S-matrix theory, *LASER beams

Abstract

We perform an experimental study on comparison between the ionization of homonuclear diatomic molecules (O2 and N2) and their companion atoms (Xe and Ar) radiated by circularly polarized intense laser fields. We find that the ionization of O2 shows suppression with respect to its companion atom Xe, which exhibits a clear wavelength and intensity dependence similar to that in linearly polarized laser field, while the ionization of N2 behaves like its companion atom Ar. With the help of S-matrix theoretical analysis, our observations can be attributed to both the molecular orbital and the two-center interference effect in molecular ionization process. [ABSTRACT FROM AUTHOR]

Published

2014

16. Alignment-Dependent Fluorescence Emission Induced by Tunnel Ionization of Carbon Dioxide from Lower-Lying Orbitals.

Author

Jinping Yao, Guihua Li, Xinyan Jia, Xiaolei Hao, Bin Zeng, Chenrui Jing, Wei Chu, Jielei Ni, Haisu Zhang, Hongqiang Xie, Chaojin Zhang, Zengxiu Zhao, Jing Chen, Xiaojun Liu, Ya Cheng, and Zhizhan Xu

Subjects

*FLUORESCENCE, *IONIZATION (Atomic physics), *CARBON dioxide, *ATOMIC orbitals, *VALENCE (Chemistry), *FIELD ionization

Abstract

The study of the ionization process of molecules in an intense infrared laser field is of paramount interest in strong-field physics and constitutes the foundation of imaging of molecular valence orbitals and attosecond science. We show measurement of alignment-dependent ionization probabilities of the lower-lying orbitals of the molecules by experimentally detecting the alignment dependence of fluorescence emission from tunnel ionized carbon dioxide molecules. The experimental measurements are compared with the theoretical calculations of the strong field approximation and molecular Ammosov-Delone-Krainov models. Our results demonstrate the feasibility of an all-optical approach for probing the ionization dynamics of lower-lying orbitals of molecules, which is until now still difficult to achieve by other techniques. Moreover, the deviation between the experimental and theoretical results indicates the incompleteness of current theoretical models for describing strong field ionization of molecules. [ABSTRACT FROM AUTHOR]

Published

2013

17. Ionization Suppression of Diatomic Molecules in an Intense Midinfrared Laser Field.

Author

ZhiYang Lin, XinYan Jia, ChuanLiang Wang, ZiLong Hu, HuiPeng Kang, Wei Quan, XuanYang Lai, XiaoJun Liu, Jing Chen, Bin Zeng, Wei Chu, JinPing Yao, Ya Cheng, and ZhiZhan Xu

Subjects

*DIATOMIC molecules, *IONIZATION (Atomic physics), *LASER beams, *FIELD theory (Physics), *MATHEMATICAL models, *WAVELENGTHS, *NITROGEN

Abstract

Diatomic molecules (e.g., O2) in an intense laser field exhibit a peculiar suppressed ionization behavior compared to their companion atoms. Several physical models have been proposed to account for this suppression, while no consensus has been achieved. In this Letter, we aim to clarify the underlying mechanisms behind this molecular ionization suppression. Experimental data recorded at midinfrared laser wavelength and its comparison with that at near-infrared wavelength revealed a peculiar wavelength and intensity dependence of the suppressed ionization of O2 with respect to its companion atom of Xe, while N2 behaves like a structureless atom. It is found that the S-matrix theory calculation can reproduce well the experimental observations and unambiguously identifies the significant role of two-center interference effect in the ionization suppression of O2. [ABSTRACT FROM AUTHOR]

Published

2012

18. Transport properties and asymmetric scattering in Ba1-xKxFe2As2 single crystals.

Author

Bing Shen, Huan Yang, Zhao-Sheng Wang, Fei Han, Bin Zeng, Lei Shan, Cong Ren, and Hai-Hu Wen

Subjects

*ELECTRICAL resistivity, *HALL effect, *MAGNETORESISTANCE, *SUPERCONDUCTIVITY, *ELECTRONS

Abstract

Resistivity, Hall effect, and magnetoresistance have been investigated systematically on single crystals of Ba1-xKxFe2As2 ranging from undoped to optimally doped regions. A systematic evolution of these properties has been observed. It is found that the resistivity in the normal state of Ba1-xKxFe2As2 is insensitive to the doped potassium concentration, which is very different from the electron-doped counterpart Ba(Fe1-xCox)2As2, where the resistivity at 300 K reduces to the half value of the undoped one when the system is optimally doped. In stark contrast, the Hall coefficient RH changes suddenly from a negative value in the undoped sample to a positive one with slight K doping, and it keeps lowering with further doping. We interpret this dichotomy as being due to the asymmetric scattering rate in the hole and the electron pockets with much higher mobility of the latter. The magnetoresistivity shows also a nonmonotonic doping dependence indicating an anomalous feature at about 80 to 100 K, even in the optimally doped sample, which is associated with a possible pseudogap effect. In the low-temperature region, it seems that the resistivity has similar values when superconductivity sets in. regardless of the different Tc values, which indicates that the influence of impurity scattering on superconductivity is weak. A linear feature of resistivity ρab versus Tc was observed just above Tc for the optimally doped sample, suggesting a quantum criticality. [ABSTRACT FROM AUTHOR]

Published

2011

19. Abnormal dependence of strong-field-ionization-induced nitrogen lasing on polarization ellipticity of the driving field.

Author

Haisu Zhang, Chenrui Jing, Guihua Li, Hongqiang Xie, Jinping Yao, Bin Zeng, Wei Chu, Jielei Ni, Huailiang Xu, and Ya Cheng

Subjects

*IONIZATION (Atomic physics), *LASERS, *POLARIZATION (Nuclear physics), *DISSOCIATION (Chemistry), *MOLECULAR physics

Abstract

We experimentally investigate lasing behaviors of population-inverted N2+ ions for the transitions between the vibrational level (v' = 0) of excited electronic B 2Σu+ state and the two lowest vibrational levels (v = 0, 1) of the ground X 2Σu+ state in an elliptically polarized laser field. It is found that, as the polarization of the pump laser evolves from linear to circular, the lasing signal for the 0 → 0 transition at 391 nm first increases with a maximum enhancement of ∼40% at the ellipticity of 0.3 and then decreases, whereas for the 0 → 1 transition at 428 nm, the lasing signal decreases monotonically. This difference between the 391 - and 428-nm lasing signals is ascribed to the high sensitivity of the strong-field response of the molecular ion to molecular vibrations, which indicates the possibility to control the vibrational state distribution of molecules by tuning the ellipticity of the laser pulse. [ABSTRACT FROM AUTHOR]

Published

2013

20. Influence of ionization suppression on high-harmonic generation in molecules: Dependence of cutoff energy on driver wavelength.

Author

Guihua Li, Jinping Yao, Haisu Zhang, Chenrui Jing, Bin Zeng, Wei Chu, Jielei Ni, Hongqiang Xie, Xiaojun Liu, Jing Chen, Ya Cheng, and Zhizhan Xu

Subjects

*IONIZATION energy, *DIATOMIC molecules, *WAVELENGTHS, *PHYSICS experiments, *SECOND harmonic generation, *FEMTOSECOND pulses, *COMPARATIVE studies

Abstract

We experimentally investigate high-order-harmonic generation (HHG) of diatomic molecules (O2, N2) and their companion atoms (Xe, Ar, respectively, which are of nearly the same ionization potentials as the corresponding molecules) with midinfrared femtosecond laser pulses. It is found that the cutoff of O2 extends to higher energy as compared to that of Xe, and the extension of cutoff energy of O2 depends on the driver wavelength. Our theoretical analysis shows that the ionization suppression induced by two-center interference should be responsible for the harmonic cutoff extension of O2. [ABSTRACT FROM AUTHOR]

Published

2013

21. Generation of narrow-bandwidth, tunable, coherent xuv radiation using high-order harmonic generation.

Author

Jinping Yao, Ya Cheng, Chen, J., Haisu Zhang, Han Xu, Hui Xiong, Bin Zeng, Wei Chu, Jielei Ni, Liu, X., and Zhizhan Xu

Subjects

*WAVELENGTHS, *ULTRAVIOLET radiation, *ULTRASHORT laser pulses, *LASER beams, *WAVE packets, *HARMONIC analysis (Mathematics), *TIME series analysis

Abstract

We theoretically demonstrate the generation of wavelength-tunable, narrow-bandwidth extreme-ultraviolet (xuv) radiation by high-order harmonic generation (HHG) driven by an orthogonally polarized two-color laser field, which is composed of a 10-fs, 1500-nm laser pulse and a 40-fs, 2400-nm laser pulse. By performing classical analysis, we reveal that the rapid change of electron wave-packet dynamics at a subcycle time scale confines high-order harmonic emission to a small spectral region, leading to the generation of narrow-bandwidth xuv radiation. Furthermore, the central wavelength of the xuv radiation can be continuously tuned over a wide range by changing either the peak intensity of the driver laser or the amplitude ratio between the two laser fields at different wavelengths. It is also verified that the use of driver pulses at longer wavelengths leads to a better spectral confinement of the xuv radiation. [ABSTRACT FROM AUTHOR]

Published

2011

22. Population Redistribution Among Multiple Electronic States of Molecular Nitrogen Ions in Strong Laser Fields.

Author

Jinping Yao, Shicheng Jiang, Wei Chu, Bin Zeng, Chengyin Wu, Ruifeng Lu, Ziting Li, Hongqiang Xie, Guihua Li, Chao Yu, Zhanshan Wang, Hongbing Jiang, Qihuang Gong, and Ya Cheng

Subjects

*NITROGEN, *EXCITED states, *GROUND state (Quantum mechanics)

Abstract

We carry out a combined theoretical and experimental investigation on the population distributions in the ground and excited states of tunnel-ionized nitrogen molecules at various driver wavelengths in the near- and midinfrared range. Our results reveal that efficient couplings (i.e., population exchanges) between the ground N+2(X²Σ+g) state and the excited N+2(A²Πu) and N+2(B2Σ+u) states occur in strong laser fields. The couplings result in a population inversion between the N+2(X²Σ+g) and N+2(B2Σ+u) states at wavelengths near 800 nm, which is verified by our experimental observation of the amplification of a seed at ~391 nm. The result provides insight into the mechanism of free-space nitrogen ion lasers generated in remote air with strong femtosecond laser pulses. [ABSTRACT FROM AUTHOR]

Published

2016

23. Wavelength scaling of atomic nonsequential double ionization in intense laser fields.

Author

YanLan Wang, SongPo Xu, YongJu Chen, HuiPeng Kang, XuanYang Lai, Wei Quan, XiaoJun Liu, XiaoLei Hao, WeiDong Li, ShiLin Hu, Jing Chen, Becker, Wilhelm, Wei Chu, Jinping Yao, Bin Zeng, Ya Cheng, and ZhiZhan Xu

Subjects

*WAVELENGTHS, *IONIZATION (Atomic physics)

Abstract

Experimental and theoretical investigations of the wavelength dependence of the nonsequential double ionization (NSDI) process of the xenon atom in intense laser fields are reported. The observed wavelength dependence of the ratio Xe2+/Xe+ deviates significantly from the prediction of the three-step model of ionization (sometimes called the "simple-man" model), both in the slope of the overall decrease with increasing wavelength and in the existence of some pronounced humps. A semiclassical model calculation reproduces the changing slope of the overall decrease, which is due to the interplay of wave-packet diffusion, Coulomb focusing, and a closely related Coulomb defocusing effect of the liberated electron. The hump is beyond the scope of the semiclassical model. [ABSTRACT FROM AUTHOR]

Published

2017