5,585 research outputs found
Logarithmic interaction under periodic boundary conditions: Closed form formulas for energy and forces
A method is given to obtain closed form formulas for the energy and forces
for an aggregate of charges interacting via a logarithmic interaction under
periodic boundary conditions. The work done here is a generalization of
Glasser's results [M. L. Glasser, J. Math. Phys. 15, 188 (1974)] and is
obtained with a different and simpler method than that by Stremler [M. A.
Stremler, J. Math. Phys. 45, 3584 (2004)]. The simplicity of the formulas
derived here makes them extremely convenient in a computer simulation
On the Structure of
A new structure for is proposed which it exists in tetragonal
state. In this structure the molecule exists in a nonlinear array
and forms the basis of the tetragonal unit cell with one basis per unit cell.
The structural analysis based on the reflections listed in ASTM 30-1479 shows
that the proposed structure is correct.Comment: six pages and four figures. Manuscript prepared in RevTe
Raoult's Formalism in Understanding Low Temperature Growth of GaN Nanowires using Binary Precursor
Growth of GaN nanowires are carried out via metal initiated
vapor-liquid-solid mechanism, with Au as the catalyst. In chemical vapour
deposition technique, GaN nanowires are usually grown at high temperatures in
the range of 900-1100 ^oC because of low vapor pressure of Ga below 900 ^oC. In
the present study, we have grown the GaN nanowires at a temperature, as low as
700 ^oC. Role of indium in the reduction of growth temperature is discussed in
the ambit of Raoult's law. Indium is used to increase the vapor pressure of the
Ga sufficiently to evaporate even at low temperature initiating the growth of
GaN nanowires. In addition to the studies related to structural and vibrational
properties, optical properties of the grown nanowires are also reported for
detailed structural analysis.Comment: 24 pages, 7 figures, journa
The timeless legacy of Robert Koch
Robert Koch was a German physician and scientist who I made wide-ranging contributions to the study of infectious diseases. He is credited with developing medical microbiology as a new and independent discipline. He is most j renowned for deciphering the etiology of tuberculosis (TB), anthrax and cholera. He laid down rigorous guidelines for establishing the link between a pathogen and a particular disease that came to be known as Koch’s postulates. To this day these postulates serve as benchmarks in the study of infectious diseases
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