TWO-DIMENSIONAL NUMERICAL STUDY FOR RAYLEIGH-TAYLOR AND RICHTMYER-MESHKOV INSTABILITIES IN RELATIVISTIC JETS

Numerical simulations of supersonic jets are able to explain the structures observed in many VLA images of radio sources. The improvements achieved in classical simulations (see Hardee, these proceedings) are in contrast with the almost complete lack of relativistic simulations the reason being that numerical difficulties arise from the highly relativistic flows typical of extragalactic jets. For our study, we have developed a two-dimensional code which is based on (i) an explicit conservative differencing of the special relativistic hydrodynamics (SRH) equations and (ii) the use of an approximate Riemann solver (see Martí et al. 1995a,b and references therein).

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A numerical study of flame growth in two-dimensional mixing layers

10.2514/6.1994-783 ◽

1994 ◽

Author(s):

S. Noda ◽

T. Nakajima ◽

K. Hashimoto

Keyword(s):

Numerical Study ◽

Mixing Layers ◽

Two Dimensional

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Numerical Study on Two-dimensional Magnetic Photonic Crystals Made of Magnetized Ferrites

PIERS Online ◽

10.2529/piers060906233818 ◽

2007 ◽

Vol 3 (3) ◽

pp. 305-307 ◽

Cited By ~ 1

Author(s):

Jie Xu ◽

Ping Chen ◽

Yue Shi ◽

Xin-Yi Ji ◽

Ai-Min Jiang ◽

...

Keyword(s):

Photonic Crystals ◽

Numerical Study ◽

Two Dimensional ◽

Magnetic Photonic Crystals

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Co-planar two-dimensional Metal-Insulator-Semiconductor Capacitor: Numerical study of the device electrostatics.

10.26434/chemrxiv.5398000 ◽

2017 ◽

Author(s):

Varun Bheemireddy

Keyword(s):

Space Charge ◽

High Performance ◽

Numerical Study ◽

2D Materials ◽

Space Charge Density ◽

Two Dimensional ◽

Short Channel ◽

Metal Insulator ◽

Metal Insulator Semiconductor ◽

New Family

The two-dimensional(2D) materials are highly promising candidates to realise elegant and e cient transistor. In the present letter, we conjecture a novel co-planar metal-insulator-semiconductor(MIS) device(capacitor) completely based on lateral 2D materials architecture and perform numerical study of the capacitor with a particular emphasis on its di erences with the conventional 3D MIS electrostatics. The space-charge density features a long charge-tail extending into the bulk of the semiconductor as opposed to the rapid decay in 3D capacitor. Equivalently, total space-charge and semiconductor capacitance densities are atleast an order of magnitude more in 2D semiconductor. In contrast to the bulk capacitor, expansion of maximum depletion width in 2D semiconductor is observed with increasing doping concentration due to lower electrostatic screening. The heuristic approach of performance analysis(2D vs 3D) for digital-logic transistor suggest higher ON-OFF current ratio in the long-channel limit even without third dimension and considerable room to maximise the performance of short-channel transistor. The present results could potentially trigger the exploration of new family of co-planar at transistors that could play a signi significant role in the future low-power and/or high performance electronics.<br>

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Numerical Study of Two-Dimensional Burger’s Equation: The Phenomenon of the Fall of Sediment Particles Using Incremental Differential Quadrature Method

Iranian Journal of Science and Technology Transactions of Civil Engineering ◽

10.1007/s40996-021-00657-0 ◽

2021 ◽

Author(s):

Mohammad Vaghefi ◽

Hossein Rahideh ◽

Sam Boveiri ◽

Iman Rezaei

Keyword(s):

Numerical Study ◽

Differential Quadrature Method ◽

Differential Quadrature ◽

Two Dimensional ◽

Quadrature Method ◽

Burger's Equation ◽

Burger’S Equation ◽

Sediment Particles

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Specific heat of ordered and isotopically disordered lattices

Canadian Journal of Physics ◽

10.1139/p78-182 ◽

1978 ◽

Vol 56 (10) ◽

pp. 1390-1394

Author(s):

K. P. Srivastava

Keyword(s):

Specific Heat ◽

Low Temperatures ◽

Numerical Study ◽

Three Dimensional ◽

Constant Volume ◽

Nearest Neighbour ◽

Two Dimensional ◽

Appreciable Difference ◽

Substantial Change ◽

Neighbour Interaction

An extensive numerical study on specific heat at constant volume (Cv) for ordered and isotopically disordered lattices has been made. Cv at various temperatures for ordered and disordered linear and two-dimensional lattices have been compared and no appreciable difference in Cv between these two structures has been observed. Effect of concentration of light atoms on Cv for three-dimensional isotopically disordered lattices has also been shown.In spite of taking next-nearest-neighbour interaction into account, no substantial change in Cv between the ordered and isotopically disordered linear lattices has been found. It is shown that the low lying modes contribute substantially at low temperatures.

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Numerical study of two-dimensional wet foam over a range of shear rates

Physical Review Fluids ◽

10.1103/physrevfluids.2.093303 ◽

2017 ◽

Vol 2 (9) ◽

Cited By ~ 1

Author(s):

T. Kähärä

Keyword(s):

Numerical Study ◽

Two Dimensional ◽

Shear Rates

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A Numerical Study of Unsteady Natural Convection in a Rectangular Enclosure: The Effect of Compressibility

Heat Transfer, Volume 2 ◽

10.1115/imece2004-60294 ◽

2004 ◽

Author(s):

K. M. Akyuzlu ◽

Y. Pavri ◽

A. Antoniou

Keyword(s):

Mathematical Model ◽

Stokes Equations ◽

Numerical Study ◽

Vertical Wall ◽

Ideal Gas ◽

Working Fluid ◽

Two Dimensional ◽

Algebraic Equations ◽

Rectangular Enclosure ◽

Circulation Patterns

A two-dimensional, mathematical model is adopted to investigate the development of buoyancy driven circulation patterns and temperature contours inside a rectangular enclosure filled with a compressible fluid (Pr=1.0). One of the vertical walls of the enclosure is kept at a higher temperature then the opposing vertical wall. The top and the bottom of the enclosure are assumed insulated. The physics based mathematical model for this problem consists of conservation of mass, momentum (two-dimensional Navier-Stokes equations) and energy equations for the enclosed fluid subjected to appropriate boundary conditions. The working fluid is assumed to be compressible through a simple ideal gas relation. The governing equations are discretized using second order accurate central differencing for spatial derivatives and first order forward finite differencing for time derivatives where the computation domain is represented by a uniform orthogonal mesh. The resulting nonlinear equations are then linearized using Newton’s linearization method. The set of algebraic equations that result from this process are then put into a matrix form and solved using a Coupled Modified Strongly Implicit Procedure (CMSIP) for the unknowns (primitive variables) of the problem. A numerical experiment is carried out for a benchmark case (driven cavity flow) to verify the accuracy of the proposed solution procedure. Numerical experiments are then carried out using the proposed compressible flow model to simulate the development of the buoyancy driven circulation patterns for Rayleigh numbers between 103 and 105. Finally, an attempt is made to determine the effect of compressibility of the working fluid by comparing the results of the proposed model to that of models that use incompressible flow assumptions together with Boussinesq approximation.

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