Ananthan Raghunathan scite author profile

Ananthan Raghunathan

4Publications

84Citation Statements Received

70Citation Statements Given

How they've been cited

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Affiliations

Mentor Technologies, University at Albany, State University of New York, GlobalFoundries (United States)

Publications

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Thermal Stability of Gold Nanorods for High-Temperature Plasmonic Sensing

et al. 2013

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There are many potential sensing applications for Au nanorods due to a tunable localized surface plasmon resonance (LSPR) frequency that changes with aspect ratio. However, their application at high temperatures is limited due to a shape change that can take place well below the melting point of bulk Au, driven by a reduction in surface energy. A method of stabilizing Au nanorods is provided here by encapsulating them with a 15 nm capping layer of yttria stabilized zirconia (YSZ). After annealing rods with nominal dimensions of 100 × 44 nm to a temperature of 600 °C, small reductions in length were observed, but the rods remained stable for all subsequent sensing tests at 500 °C, which amounted to 80 h. It was shown with a separate sample that the rod geometry can be preserved even up to 800 °C over a 12 h annealing period, although a significant shortening of the rod length occurred, leaving a void space in the YSZ. The sensing response of both the transverse and the longitudinal LSPR peaks was monitored for H2, CO, and NO2 exposures in an air background at 500 °C. In all cases, the longitudinal LSPR peak shows a larger shift upon gas exposure than does the transverse peak.

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Revisit pattern collapse for 14nm node and beyond

Yoshimoto

Higgins

Raghunathan³

et al. 2011

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Best focus shift mechanism for thick masks

Burkhardt

Raghunathan

2015

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Influence of secondary electrons in high-energy electron beam lithography

Raghunathan

Hartley

2013

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The effect of secondary electrons in electron beam lithography is investigated based on a technique called point exposure distribution measurements. This technique involves printing a series of dots at different exposure doses using a high contrast electron beam resist. The experimental results indicate that the secondary electrons are the most likely cause for exposure events. The secondary electrons generated due to forward scattering also limit the highest achievable resolution. An analytical model is developed here based on the physics governing secondary electron generation and transport. The model is able to predict the dependence of dose on the observed diameter to within a reasonable accuracy. The experimental results were verified with the model at both 100 and 50 keV.

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