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000090874 1001_ $$0P:(DE-H253)PIP1010871$$aQuevedo, W.$$b0
000090874 1101_ $$aDESY$$bExperiments with synchrotron radiation
000090874 245__ $$aTime-resolved soft x-ray diffraction reveals transient structural distortions of ternary liquid crystals
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000090874 440_0 $$0PERI:(DE-600)2019364-6$$aInt. J. Mol. Sci.$$v10$$x1422-0067
000090874 500__ $$3Converted on 2013-05-30 14:04
000090874 500__ $$3Converted on 2013-06-21 19:20
000090874 520__ $$aHome-based soft X-ray time-resolved scattering experiments with nanosecond time resolution (10 ns) and nanometer spatial resolution were carried out at a table top soft X-ray plasma source (2.2-5.2 nm). The investigated system was the lyotropic liquid crystal C(16)E(7)/paraffin/glycerol/formamide/IR 5. Usually, major changes in physical, chemical, and/or optical properties of the sample occur as a result of structural changes and shrinking morphology. Here, these effects occur as a consequence of the energy absorption in the sample upon optical laser excitation in the IR regime. The liquid crystal shows changes in the structural response within few hundred nanoseconds showing a time decay of 182 ns. A decrease of the Bragg peak diffracted intensity of 30% and a coherent macroscopic movement of the Bragg reflection are found as a response to the optical pump. The Bragg reflection movement is established to be isotropic and diffusion controlled (1 micros). Structural processes are analyzed in the Patterson analysis framework of the time-varying diffraction peaks revealing that the inter-lamellar distance increases by 2.7 A resulting in an elongation of the coherently expanding lamella crystallite. The present studies emphasize the possibility of applying TR-SXRD techniques for studying the mechanical dynamics of nanosystems.
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000090874 7001_ $$aPeth, C.$$b1
000090874 7001_ $$aBusse, G.$$b2
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000090874 7001_ $$0P:(DE-H253)PIP1010368$$aMann, K.$$b4
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