Add to ORKGA technique to improve double optical gating for generating isolated attosecond pulses is introduced. In this method, the ratio between the amplitudes of the counter-rotating pulses is altered to decrease the field strength prior to the linearly-polarized gate cycle. The result is a decrease in the preionization of the gas target used for generating high-order harmonics. In addition to improving phase matching and increasing the saturation intensity, this development also allows isolated attosecond pulse production with longer driving laser pulses
A new polarization gating is demonstrated by our principle-of-proof experiment, which is theoretical...
International audienceThe current paradigm of isolated attosecond pulse production requires a few-cy...
Polarization gating of high-order harmonic generation takes advantage of the significant reduction o...
Based on the theory of strong field approximation, we simulate the high harmonic and attosecond puls...
Generalized Double Optical Gating is an effective scheme for generating single isolated attosecond p...
High harmonics generated using the polarization gating technique are simulated under the strong-fiel...
Single isolated attosecond pulses can be extracted from a pulse train with an ultrafast gate in the ...
Single isolated attosecond pulses can be extracted from a pulse train with an ultrafast gate in the ...
We propose a new experimental scheme to produce clean isolated pulses lasting a few hundreds of atto...
A new scheme to generate isolated attosecond pulses is presented that involves the use of a laser fi...
High harmonic generation provides a means of producing attosecond pulses of light which are the shor...
We present a novel scheme for high-order harmonic generation, enabling the production of spatially s...
Using a generalized version of double optical gating, we produced single isolated attosecond pulses ...
We theoretically investigate high-order harmonic generation from the diatomic molecules in an orthog...
The process of high-order harmonic generation requires laser intensities around 1014 W/cm2, most eas...
A new polarization gating is demonstrated by our principle-of-proof experiment, which is theoretical...
International audienceThe current paradigm of isolated attosecond pulse production requires a few-cy...
Polarization gating of high-order harmonic generation takes advantage of the significant reduction o...
Based on the theory of strong field approximation, we simulate the high harmonic and attosecond puls...
Generalized Double Optical Gating is an effective scheme for generating single isolated attosecond p...
High harmonics generated using the polarization gating technique are simulated under the strong-fiel...
Single isolated attosecond pulses can be extracted from a pulse train with an ultrafast gate in the ...
Single isolated attosecond pulses can be extracted from a pulse train with an ultrafast gate in the ...
We propose a new experimental scheme to produce clean isolated pulses lasting a few hundreds of atto...
A new scheme to generate isolated attosecond pulses is presented that involves the use of a laser fi...
High harmonic generation provides a means of producing attosecond pulses of light which are the shor...
We present a novel scheme for high-order harmonic generation, enabling the production of spatially s...
Using a generalized version of double optical gating, we produced single isolated attosecond pulses ...
We theoretically investigate high-order harmonic generation from the diatomic molecules in an orthog...
The process of high-order harmonic generation requires laser intensities around 1014 W/cm2, most eas...
A new polarization gating is demonstrated by our principle-of-proof experiment, which is theoretical...
International audienceThe current paradigm of isolated attosecond pulse production requires a few-cy...
Polarization gating of high-order harmonic generation takes advantage of the significant reduction o...