We propose a scheme to overcome diffraction limit in optical lithography via graphene-
plasmon (GP) interference. Taking advantage of the novel properties of GPs—tunability, low …

With the wealth of super-resolution techniques available in the literature it is useful to
provide a succinct review of the general concepts involved in the different schemes. In this …

We propose a N-photon imaging scheme with the resolution reaching the fundamental
Heisenberg limit. The key imaging element is a phase-controlled screen which introduces …

Optical potentials have been a versatile tool for the study of atomic motions and many-body
interactions in cold atoms. Recently, optical subwavelength single barriers were proposed to …

The resolution of optical lithography and the spacing of atom lithography are limited by
about half of the wavelength due to the Rayleigh limit. Here we propose a coherent atom …

We theoretically propose a scheme that utilizes the excited state of a Λ-type three-level atom
system for atom lithography. A standing-wave coupling field and a probe field provide …

The probabilities of quantum transitions are described by integrals over trajectories in the
space of energy states of a system exposed to an electromagnetic field. A recurrent …

We demonstrated a method to achieve the two-photon subwavelength effect of true
broadband chaotic light in polarization-selective Michelson interferometer based on two …

The resolution of an interferometric optical lithography system is about the half wavelength
of the illumination light. We proposed a method based on Doppleron resonance to achieve a …

The resolution of a photolithography and optical imaging system is restricted by the
diffraction limit. Coherent Rabi oscillations have been shown to be able to overcome the …