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Sensitivity of the Advanced LIGO detectors at the beginning of gravitational wave astronomy
Martynov, D. V.,Hall, E. D.,Abbott, B. P.,Abbott, R.,Abbott, T. D.,Adams, C.,Adhikari, R. X.,Anderson, R. A.,Anderson, S. B.,Arai, K.,Arain, M. A.,Aston, S. M.,Austin, L.,Ballmer, S. W.,Barbet, M.,Bar American Physical Society 2016 Physical Review D Vol.93 No.11
S. U. Rehman,A. Zeeshan,A. Majeed,M. B. Arain 한국자기학회 2017 Journal of Magnetics Vol.22 No.3
The target of the current study is to inspect theoretically two-dimensional boundary layer flow of a Maxwell ferromagnetic fluid toward a flat plate. An external magnetic field due to two equal line dipole which are equidistant from the wall and perpendicular to the flow plane is applied. Cattaneo-Christov heat flux model is utilized in modified form of Fourier’s Law to disclose the heat transfer characteristic. Governing flow problem is normalized into ordinary differential equation by adopting similarity transform procedure. The solution of resulting non-linear ODE’s are solved by shooting technique based on Runge-Kutta algorithm with the help of MATLAB. Characteristic of sundry parameter like magneto-thermomechanical (ferrohydrodynamic) interaction parameter, dimensionless thermal relaxation, Prandtl number and Debora number on velocity and temperature profile are displayed via graphs and in tabular form. It is also pointed out that temperature profile suppresses by varying values of the thermal relaxation time and Prandtl number and increasing behaviour is seen against ferrohydrodynamic interaction. Present numerical results are compared with those published previously in the literature for the case of Newtonian fluid (α₁ → 0) and found an excellent agreement.