Abstract
We have demonstrated a method of generation and real-time detection of nanostructures in a cold Rb cloud. These structures, which are periodic gratings of atomic density, appear as a result of interference of atoms diffracted by pulses of an optical standing wave of wavelength $\ensuremath{\lambda}.$ We have detected structures of period $\ensuremath{\lambda}/2$ and $\ensuremath{\lambda}/4.$ Calculations indicate that these density gratings have period $\ensuremath{\lambda}/2N$ for integer N. While the structures with the period $\ensuremath{\lambda}/2$ are easily detected by Bragg scattering of an optical probe beam, the shorter-period structures are not. For their detection we have developed a three-pulse echo method, in which the shorter-period gratings get converted into the structures with period $\ensuremath{\lambda}/2,$ readily detected in real time. Applications related to lithography are discussed.
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