This paper examines, by means of a Monte Carlo simulation, the conditions under which electron beam lithography could be used to produce nanometer scale structures on a solid substrate.
This paper describes the fabrication of multiterminal silicon MOSFETs containing channel segments as narrow as 30 nm for fundamental studies of quantum conduction.
In this paper we propose a novel approach that can greatly enhance our ability to control the behavior of liquids on solid substrates.
We demonstrate a very compact multifunctional photonic-crystal demultiplexer on high index contrast InP-membrane for coarse WDM applications.
This paper covers four specific areas-diverse in their scope and approach of nanophotonics research at Bell Labs, ranging from nanosized light emitters to passive and active optical circuits fabric
A nanopore is an analytical tool with single molecule sensitivity. For detection, a nanopore relies on the electrical signal that develops when a molecule translocates through it.
We report the design, fabrication and modeling of a thin film evaporation device for cooling of high performance electronic systems.
High power density electronics are severely limited by current thermal management solutions which are unable to dissipate the necessary heat flux while maintaining safe junction temperatures for re
We demonstrate the first steps towards realizing a highly effective hardmask fabrication technique for producing cheap low defect nanoporous membranes, which can be incorporated as fluidic wicking
Triblock polymers, poly(ethylene oxide-b-propylene oxide-b-ethylene oxide) (PEO-b-PPO-b-PEO), are used as molecular templates in poly(methyl silsequioxane) (MSQ) matrices to fabricate nanoporous or
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