Publications

The rates of redistribution of vibrational energy in polyatomic molecules and the pathways and mechanisms by which such energy redistribution proceeds are of considerable importance to chemists.

As a liquid is supercooled past its freezing point and eventually through a glass transition point, the constituent molecules experience increasing difficulty in undergoing the collective rearrang

We have investigated two regions of manganite phase space; one where ferromagnetic (FM), metallic and charge-ordered (CO), insulating phases become the ground and high-temperature states, respectiv

Triblock and diblock copolymer systems have been studied using differential scanning calorimetry and dielectric spectroscopy.

We have used DSC experiments to study the effect of annealing on the interfacial regions of a microphase-separated triblock copolymer.

In a pure silica glass, different fictive temperatures are achieved between 1500 and 1100degreesC. These temperatures are checked by the position of the Si-O-Si Raman band.

We report experimental evidence of a mechanical instability in high molecular weight polystyrene solutions under large shear strains, as a result of which shear strain is non-uniformly distributed

In a recent paper, Gait 1 ' 2 and Wijn and van der Heidc3 have suggested a mechanism for the losses observed during ferromagnetic resonance and domain wall motion in single crystals of nickel ferri

This paper is concerned with the systematic design of efficient Jacobi and Gauss-Seidel relaxations, and their over-relaxed variants, for the computation of the stationary distributions of continuo

5G wireless systems may benefit by waveforms supporting relaxed synchronization, as this enables reduced energy consumption, better support of low-end devices and reduction of signaling overhead.