Kashma Rai scite author profile

Kashma Rai

4Publications

38Citation Statements Received

72Citation Statements Given

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Affiliations

Drexel University, University of Bologna

Publications

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Order and Dynamics Inside H-PDLC Nanodroplets: An ESR Spin Probe Study

et al. 2009

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We have performed a detailed study of the order and dynamics of the commercially available BL038 liquid crystal (LC) inside nanosized (50-300 nm) droplets of a reflection-mode holographic-polymer dispersed liquid crystal (H-PDLC) device where LC nanodroplet layers and polymer layers are alternately arranged, forming a diffraction grating. We have determined the configuration of the LC local director and derived a model of the nanodroplet organization inside the layers. To achieve this, we have taken advantage of the high sensitivity of the ESR spin probe technique to study a series of temperatures ranging from the nematic to the isotropic phase of the LC. Using also additional information on the nanodroplet size and shape distribution provided by SEM images of the H-PDLC cross section, the observed director configuration has been modeled as a bidimensional distribution of elongated nanodroplets whose long axis is, on the average, parallel to the layers and whose internal director configuration is a uniaxial quasi-monodomain aligned along the nanodroplet long axis. Interestingly, at room temperature the molecules tend to keep their average orientation even when the layers are perpendicular to the magnetic field, suggesting that the molecular organization is dictated mainly by the confinement. This result might explain, at least in part, (i) the need for switching voltages significantly higher and (ii) the observed faster turn-off times in H-PDLCs compared to standard PDLC devices.

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Holographically formed polymer dispersed liquid crystal films for transmission mode spectrometer applications

2007

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We show proof of concept of a transmission-mode wavelength filtering device consisting of layered holographically formed polymer dispersed liquid crystal (H-PDLC) cells. H-PDLC cells were fabricated from a thiolene based polymer composite to have transmission notches in the near-IR wavelength range. Wavelength filtering was achieved by stacking four H-PDLC cells with transmission notches spaced at 10 nm intervals. Results show a broad transmission notch spanning the spectral width of the constituent cells. With bias applied to an individual cell within the stack, the transmission notch of the cell inverts and the overall transmission envelope changes shape. Using a transmitted energy sensing device and a lineshape mapping algorithm, spectral content can be determined to a resolution of 0.1 nm for narrow banded signals. Applications for this switchable wavelength filtering device include serial detection of spectral content for telecom data signals or chemical and biological sample identification through absorption or emission spectroscopy.

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Optimization of Pressure Response in HPDLC Gratings Based on Polymer Composition

Rai

Fontecchio

2006

Molecular Crystals and Liquid Crystals

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Hydrostatic pressure response of polymer-dispersed liquid crystal gratings

Ermold

Rai

Fontecchio

2005

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Experimental analysis showed shifts in Bragg wavelength when examining the effects of applied hydrostatic pressure (0–10psi above ambient) on the reflection spectrum of holographic polymer-dispersed liquid-crystal Bragg gratings. With increased pressure, a spectral blueshift was observed, suggesting applications in optical pressure sensing. To analyze and quantify the observations, a Gaussian curve was fitted to the reflection spectrum of the gratings at each pressure interval. The spectral dependence on applied pressure is explained by elastic compression of the polymer sections of the Bragg planes in the reflection grating. The presented theory shows that the response of the gratings to the applied pressure is independent of the probe light incidence angle, but is linearly dependent on the ambient pressure reflection wavelength of the gratings.

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Kashma Rai

Order and Dynamics Inside H-PDLC Nanodroplets: An ESR Spin Probe Study

Holographically formed polymer dispersed liquid crystal films for transmission mode spectrometer applications

Optimization of Pressure Response in HPDLC Gratings Based on Polymer Composition

Hydrostatic pressure response of polymer-dispersed liquid crystal gratings

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