ABSTRACT:
We have experimentally generated the optical tweezers in the form of a dark soliton pulse using the
Stimulated Brillouin Scattering (SBS) system. This is the first time ever found on the use of the highly
intense pulse in the form of a dark soliton to perform the dynamic light trapping probe known as a
¿dynamic optical tweezers¿. The advantage of the generated tweezers is that it can be used to
transmit and transport the trapping atom/molecule into the optical device and communication network,
which can be claimed as the dynamic optical tweezers transportation, for used in many frontier
applications. The multi-optical tweezers generated, with high capacity regime can then be used for
multi-optical tweezers transmission. The various applications to form the frontier research using photon,
atom, molecule, DNA, electron and ion trapping for atomic tools, tiny synchrotron, molecular networks,
bottom up atom/molecule assembly, ozone repair etc. are described. The experimental details and
model of the optical tweezers generation and related characteristics are described. The interesting
simulation results of a dark soliton generation for the optical tweezers are also analyzed and discussed
in various applications.