Litcius/Paper detail

Elliptical isolated attosecond-pulse generation from an atom in a linear laser field

Xiaofan Zhang, Xiaosong Zhu, Xi Liu, Feng Wang, Meiyan Qin, Qing Liao, Peixiang Lu

2020Physical review. A/Physical review, A35 citationsDOI

Abstract

We theoretically demonstrate a scheme to produce elliptically polarized isolated attosecond pulses, based on the high-order harmonic generation from the current-carrying state of an atom exposed in linearly polarized laser fields. It is shown that the nonzero ellipticity of the attosecond pulse generated at the single-atom level is attributed to the nonvanishing angular momentum of the state, which is further elucidated by the strong-field approximation model. With specific carrier envelope phases (CEPs), isolated attosecond pulses with large ellipticity can be obtained. Moreover, the ellipticity of high-order harmonics remains almost invariable versus the CEP of the few-cycle driving field. Hence, the temporal profile and ellipticity of the attosecond-pulse radiation can be manipulated separately, which is beneficial to shape the attosecond-pulse radiation without compromising the ellipticity. The obtained elliptical attosecond pulse may serve as a potential tool to explore and manipulate the ultrafast dynamics in magnetic materials and chiral media.

Topics & Concepts

AttosecondPhysicsElliptical polarizationUltrashort pulseHigh harmonic generationPulse (music)LaserHarmonicsOpticsAtomic physicsField (mathematics)Angular momentumAtom (system on chip)Linear polarizationQuantum mechanicsVoltageDetectorPure mathematicsComputer scienceMathematicsEmbedded systemLaser-Matter Interactions and ApplicationsLaser-Plasma Interactions and DiagnosticsAdvanced Fiber Laser Technologies