Jignesh Gandhi scite author profile

Jignesh Gandhi

5Publications

59Citation Statements Received

13Citation Statements Given

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Affiliations

Tektronix (United States), Kent State University

Publications

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35.5L: Late‐News Paper: A Direct‐View MEMS Display for Mobile Applications

Hagood

Barton

Brosnihan

et al. 2007

Symp Digest of Tech Papers

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With the continued proliferation of display intensive applications for portable electronics devices, the need for lower power, higher image quality video displays has never been greater. Pixtronix is uniquely able to meet these requirements through its MEMS (micro-electo-mechanical system) display technology, which enables the development of direct view displays with breakthrough optical transmission over 60%, color gamut over 100% (of NTSC, CIE 1931), 1,000:1 contrast ratio and wide view angles.

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Effect of surface alignment layers on the configurational transitions in cholesteric liquid crystals

Gandhi

Yang

1998

Phys. Rev. E

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To understand the mechanism behind the pitch change during the transient planar to the planar state transition of a cholesteric liquid crystal ͑while it is relaxing from the homeotropic state to the planar state͒, we studied a more controlled situation of pitch change in a thermochromic liquid crystal. We studied the pitch change in the liquid crystal, as a function of temperature, under various surface alignment conditions such as homogeneous and homeotropic surface alignments. In a cell with homogeneous surface treatment, the liquid crystal showed a discontinuous pitch change, while the pitch change was rather continuous in a cell with homeotropic treatment. The numerical simulations also showed an existence of continuous pitch change in a homeotropic cell, but not in a homogeneous one. This led to a prediction that when a cholesteric material is switched from the homeotropic state to the planar state, the transition may be much faster for the homeotropically treated cell as compared to the homogeneously treated cell. We performed experiments to verify this prediction with a chiral nematic mixture. Indeed, the homeotropic to planar state transition time of a homeotropic cell was 5 msec, much faster compared to about 200 msec for corresponding transition in a homogeneous cell.

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56.1: Sunlight Readability of Digital Micro Shutter Based Display Technology

Gandhi

Kim

Hagood

et al. 2010

Symp Digest of Tech Papers

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The Pixtronix DMS™ (Digital Micro Shutter) display technology intrinsically provides exceptional image quality due to its optical architecture, device construction and device operation. This technology, based on MEMS micro‐shutters formed on active TFT backplanes, has enabled the development of color sequential, time division gray scale, direct‐view displays achieving breakthrough performance in wide color gamut, high brightness, high contrast ratio and wide view angles, all at roughly 1/4 the power consumption of competing TFT‐LCD or AMOLED displays of the same size and luminance. In addition, DMS™ technology also presents very good sunlight readability in transflective color modes. This readability can be attributed to reflective properties of the DMS™ optical architecture. This reflective nature enhances viewing characteristics of transmissive color modes in high ambient lighting conditions. The reflective performance is obtained without compromising transmissive mode performance as is typically the case in some of the existing display technologies. This paper will explain the performance of DMS™ display in reflective and transflective modes under high ambient lighting conditions.

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31.2: Vertically Aligned Field‐Sequential Microdisplay

Anderson¹,

Gandhi²,

Erdmann³

2002

Symp Digest of Tech Papers

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Pixtronix digital micro-shutter display technology: a MEMS display for low power mobile multimedia displays

Brosnihan

Payne

Gandhi

et al. 2010

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Jignesh Gandhi

35.5L: Late‐News Paper: A Direct‐View MEMS Display for Mobile Applications

Effect of surface alignment layers on the configurational transitions in cholesteric liquid crystals

56.1: Sunlight Readability of Digital Micro Shutter Based Display Technology

31.2: Vertically Aligned Field‐Sequential Microdisplay

Pixtronix digital micro-shutter display technology: a MEMS display for low power mobile multimedia displays

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