Measurement of laser intensities approaching 1015W/cm2with an accuracy of 1% | Zendy

Michael G. Pullen | Zendy; William Wallace | Zendy; D. E. Laban | Zendy; Andrew Palmer | Zendy; G F Hanne | Zendy; Alexei N. Grum-Grzhimailo | Zendy; Klaus Bartschat | Zendy; И. А. Иванов | Zendy; A. S. Kheifets | Zendy; D. Wells | Zendy; H. M. Quiney | Zendy; XiaoMin Tong | Zendy; I. V. Litvinyuk | Zendy; R. T. Sang | Zendy; D. Kielpinski | Zendy

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Measurement of laser intensities approaching 1015W/cm2with an accuracy of 1%

Author(s) -

Michael G. Pullen,

William Wallace,

D. E. Laban,

Andrew Palmer,

G F Hanne,

Alexei N. Grum-Grzhimailo,

Klaus Bartschat,

И. А. Иванов,

A. S. Kheifets,

D. Wells,

H. M. Quiney,

XiaoMin Tong,

I. V. Litvinyuk,

R. T. Sang,

D. Kielpinski

Publication year - 2013

Publication title -

physical review a

Language(s) - English

Resource type - Journals

eISSN - 1094-1622

pISSN - 1050-2947

DOI - 10.1103/physreva.87.053411

Subject(s) - physics , laser , measure (data warehouse) , intensity (physics) , interpretation (philosophy) , field (mathematics) , atomic physics , algorithm , optics , data mining , computer science , pure mathematics , programming language , mathematics

Accurate knowledge of the intensity of focused ultrashort laser pulses is crucial to the correct interpretation of experimental results in strong-field physics. We have developed a technique to measure laser intensities approaching 10(15) W/cm(2) with an accuracy of 1%. This accuracy is achieved by comparing experimental photoelectron yields from atomic hydrogen with predictions from exact numerical solutions of the three-dimensional time-dependent Schrodinger equation. Our method can be extended to relativistic intensities and to the use of other atomic species

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