Sub-optical-cycle manipulation of valley-polarized currents

Manipulating valley-polarized currents at optical frequencies is the key to petahertz valleytronics, yet it remains intractable. To tackle this challenge, we propose an all-optical scheme using non-resonant bichromatic optical fields, which allow for the control of sub-cycle electron dynamics. The combined effect of the helical and asymmetric waveforms of the optical fields leads to the valley-polarization and displacement of the excited electrons concurrently, thereby inducing the valleypolarized currents, on the sub-optical-cycle timescale. This scheme inherently possesses remarkable resilience to decoherence, making it particularly suitable for materials with short decoherence times. Moreover, the direction of the currents can be precisely controlled by adjusting the relative phase of the bichromatic components. Our scheme offers a promising avenue for generating and modulating valley-polarized currents at the femtosecond timescale, opening the door to the realm of petahertz valleytronics.