Andrés Santos

What is he best known for?

The fields of study he is best known for:

• Quantum mechanics
• Mathematical analysis
• Thermodynamics

His main research concerns Hard spheres, Classical mechanics, Statistical physics, Boltzmann equation and Kinetic theory of gases. His Hard spheres research includes elements of Mathematical physics, Simple, Equation of state and Laplace transform. Andrés Santos combines subjects such as Navier–Stokes equations, Mechanics and Hagen–Poiseuille equation with his study of Classical mechanics.

The study incorporates disciplines such as Compressibility factor and Virial coefficient in addition to Statistical physics. His Boltzmann equation study combines topics in areas such as Dispersion relation, Shear flow, Dissipative dynamics and Granular material. His Kinetic theory of gases research includes elements of Shear rate and Boltzmann constant.

His most cited work include:

• Hydrodynamics for granular flow at low density (300 citations)
• Kinetic Theory of Gases in Shear Flows (169 citations)
• DISSIPATIVE DYNAMICS FOR HARD SPHERES (167 citations)

What are the main themes of his work throughout his whole career to date?

Andrés Santos spends much of his time researching Statistical physics, Hard spheres, Boltzmann equation, Classical mechanics and Mechanics. Andrés Santos studied Statistical physics and Equation of state that intersect with Virial coefficient. His studies deal with areas such as Radial distribution function and Mathematical analysis as well as Hard spheres.

His Boltzmann equation research integrates issues from Shear flow, Kinetic theory of gases, Distribution function and Heat flux. His Classical mechanics research includes themes of Flow and Exact solutions in general relativity. He usually deals with Mechanics and limits it to topics linked to Nonlinear system and Boltzmann constant.

He most often published in these fields:

• Statistical physics (32.22%)
• Hard spheres (31.74%)
• Boltzmann equation (21.24%)

What were the highlights of his more recent work (between 2014-2021)?

• Statistical physics (32.22%)
• Hard spheres (31.74%)
• Molecular dynamics (5.97%)

In recent papers he was focusing on the following fields of study:

Andrés Santos mostly deals with Statistical physics, Hard spheres, Molecular dynamics, Mechanics and Virial coefficient. His Statistical physics research is multidisciplinary, incorporating elements of Work, Distribution function, Equation of state and Radial distribution function. Yukawa potential, Vapor–liquid equilibrium, Perturbation theory, Classical mechanics and Simple is closely connected to Helmholtz free energy in his research, which is encompassed under the umbrella topic of Equation of state.

Andrés Santos interconnects Fractal dimension and Condensed matter physics in the investigation of issues within Hard spheres. His Drag study in the realm of Mechanics interacts with subjects such as SPHERES. His work deals with themes such as Integral equation and Binary number, which intersect with Virial coefficient.

Between 2014 and 2021, his most popular works were:

• A Concise Course on the Theory of Classical Liquids (48 citations)
• When the Hotter Cools More Quickly: Mpemba Effect in Granular Fluids. (44 citations)
• Bridging and depletion mechanisms in colloid-colloid effective interactions: A reentrant phase diagram. (22 citations)

In his most recent research, the most cited papers focused on:

• Quantum mechanics
• Mathematical analysis
• Thermodynamics

His scientific interests lie mostly in Statistical physics, Molecular dynamics, Mechanics, Hard spheres and Thermodynamics. Andrés Santos combines subjects such as Maxima and minima, Cooling down, Non-equilibrium thermodynamics, Binary number and Virial coefficient with his study of Statistical physics. He has researched Mechanics in several fields, including Surface finish, Mpemba effect, Kinetic theory of gases and Nonlinear system.

His Hard spheres study frequently draws connections to other fields, such as Distribution function. His work on Compressibility factor and Equation of state as part of general Thermodynamics study is frequently linked to Atomic packing factor, bridging the gap between disciplines. His work in Equation of state addresses subjects such as Order, which are connected to disciplines such as Radial distribution function.

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