Abstract
We present the novel system of molecular distributed sensors using dark soliton pulse array, whereas the multi dark soliton sources can be generated and the molecular distributed sensors presented via an optical multiplexer (MUX). Initially, the dark soliton array with different center wavelengths can be generated, then the transmission molecules/atoms can be secured by using the dark soliton behaviors, whereas the dark soliton valley can be configured as the molecule/atom trapping potential well, which can be used to trap molecule/atom. In this case, the transported molecules/atoms in the router can be used to form the molecular distributed sensors, whereas the induced changes in the molecular distributed sensors can be formed and measured via the drop port of each output multiplexer.
Highlights
Threepak et al [1] and Kulsirirat et al [2] have shown the very fascinating results of molecule/ atom trapping and transportation using optical trapping probe, where the dynamical movement of molecule/atom can be realized
We present the novel system of molecular distributed sensors using dark soliton pulse array, whereas the multi dark soliton sources can be generated and the molecular distributed sensors presented via an optical multiplexer (MUX)
The dark soliton array with different center wavelengths can be generated, the transmission molecules/atoms can be secured by using the dark soliton behaviors, whereas the dark soliton valley can be configured as the molecule/atom trapping potential well, which can be used to trap molecule/atom
Summary
Threepak et al [1] and Kulsirirat et al [2] have shown the very fascinating results of molecule/ atom trapping and transportation using optical trapping probe, where the dynamical movement of molecule/atom can be realized. In this paper we describe a new concept of developing an optical tweezers source using a dark soliton pulse. The developed tweezers have shown many potential applications in electron, ion, atom and molecule probing and manipulation as well as DNA probing and transportation. The change in potential well is still stable in some conditions, which mean that the dynamic optical tweezers is plausible, the transportation of atoms/molecules in the optical network via a dark soliton being realized in the near future. The trapped molecules/atoms by dynamic tweezers can be formed by using the tweezers array (multi tweezers) [12], which is available for transportation in the routers [1] or optical wireless link [13]. The induced changes due to the surrounded environments can be measured and formed the molecules/atoms distributed sensors
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