Add to ORKGExperiments by several groups during the past decade have shown that a molten polymer nanofilm subject to a large transverse thermal gradient undergoes spontaneous formation of periodic nanopillar arrays. The prevailing explanation is that coherent reflections of acoustic phonons within the film cause a periodic modulation of the radiation pressure which enhances pillar growth. By exploring a deformational instability of particular relevance to nanofilms, we demonstrate that thermocapillary forces play a crucial role in the formation process. Analytic and numerical predictions show good agreement with the pillar spacings obtained in experiment. Simulations of the interface equation further determine the rate of pillar growth of importance t...
Many physical systems give rise to dynamical behavior leading to cuspidal shapes which represent a s...
When a liquid drop gets into contact with a soft array of microstructures, capillary forces at the t...
There has been significant interest during the past decade in developing methods for remote manipul...
Experiments by several groups during the past decade have shown that a molten polymer nanofilm subje...
The free surface of molten nanofilms is known to undergo spontaneous formation of periodic protrusio...
This doctoral thesis describes experimental work conducted as part of ongoing efforts to identify an...
Molten polymer nanofilms subject to a large transverse thermal gradient can undergo a thermocapillar...
Slender liquid nanofilms exposed to large surface thermal gradients are known to undergo thickness f...
One of the recent studies showed that the structures can be self-constructed by controlling the inst...
The authors carried out matched experiments and molecular dynamics simulations of the compression of...
Liquid nanofilms exposed to a large transverse thermal gradient undergo an instability featuring an ...
Slender liquid nanofilms exposed to large surface thermal gradients are known to undergo thickness f...
We have applied a novel approach to the investigation of deformation of nanoporous metals at the nan...
The Rayleigh-Taylor (RT) interfacial instability has been attributed to physical phenomenon in a wid...
We demonstrate a controllable formation process of wave-like patterns in thermally unstable surface-...
Many physical systems give rise to dynamical behavior leading to cuspidal shapes which represent a s...
When a liquid drop gets into contact with a soft array of microstructures, capillary forces at the t...
There has been significant interest during the past decade in developing methods for remote manipul...
Experiments by several groups during the past decade have shown that a molten polymer nanofilm subje...
The free surface of molten nanofilms is known to undergo spontaneous formation of periodic protrusio...
This doctoral thesis describes experimental work conducted as part of ongoing efforts to identify an...
Molten polymer nanofilms subject to a large transverse thermal gradient can undergo a thermocapillar...
Slender liquid nanofilms exposed to large surface thermal gradients are known to undergo thickness f...
One of the recent studies showed that the structures can be self-constructed by controlling the inst...
The authors carried out matched experiments and molecular dynamics simulations of the compression of...
Liquid nanofilms exposed to a large transverse thermal gradient undergo an instability featuring an ...
Slender liquid nanofilms exposed to large surface thermal gradients are known to undergo thickness f...
We have applied a novel approach to the investigation of deformation of nanoporous metals at the nan...
The Rayleigh-Taylor (RT) interfacial instability has been attributed to physical phenomenon in a wid...
We demonstrate a controllable formation process of wave-like patterns in thermally unstable surface-...
Many physical systems give rise to dynamical behavior leading to cuspidal shapes which represent a s...
When a liquid drop gets into contact with a soft array of microstructures, capillary forces at the t...
There has been significant interest during the past decade in developing methods for remote manipul...