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Ponmurugan, M.
- FTIR Spectroscopic Studies on Human Blood Sample
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Research Cell: An International Journal of Engineering Sciences, Vol 31, No SP (2019), Pagination: 16-20Abstract
.References
- Diem, M., Romeo, M., Boydston-White, S., Miljkovi, M., Matth aus, C., 2004. A decade of vibrational micro spectroscopy of human cells and tissue, Analyst 129, p. 880.
- Griffiths, Peter R., de Haseth, James A., 2007. Fourier transform infrared spectrometry, John Wiley & Sons, vol. 171.
- Barth, A., 2007. Infrared spectroscopy of proteins, Biochimica et Biophysica Acta (BBA)-Bioenergetics 1767, p. 1073.
- Polakovs, M., Mironova-Ulmane, N., Pavlenko, A., Reinholds, E., Gavare, M., Grube, M., 2012. Epr and ftir Spectroscopies study of human blood after irradiation, Journal of Spectroscopy 27, p. 367.
- Benezzeddine-Boussaidi, L., Cazorla, G., and Melin, A. M., 2009. Validation for quantification of immunoglobulin’s By Fourier transform infrared spectrometry, Clinical Chemistry and Laboratory Medicine 47, p. 83.
- Agarwal, Gr., Kiran Agarwal, Agarwal, Op., 2007. Text book of Biochemistry, Krishna Prakashan Media (P) Ltd.
- Kafka, M., Yermiahu, T., 1998. The effect of edta as an anticoagulant on the osmotic fragility of erythrocytes’, Clinical & Laboratory Haematology 20, p. 213.
- Ban, G., Salvagno, G. L., Lippi, G., 2007. The role of ethylenediamine tetraacetic acid (edta) as in vitro Anticoagulant for diagnostic purposes, Clinical Chemical Laboratory Medicine 45, p. 565.
- Vijaya Ushasree, U., Kaleem Ahmed Jaleeli., Adeel Ahmad., 2016, A study on infrared spectroscopy of human blood, International Journal of Science Environment and Technology 5, p. 1189.
- Gunasekaran, S., Renuga Devi, T., Sakthivel, P., 2007. Study of lipid disorders in women blood samples, A Spectroscopic approach, Asian Journal of Clinical Cardiology 10, p. 19.
- Rai, A.K., Rai, S., Rai, D., Singh, V., 2002. ‘Spectroscopic studies and normal coordinate analysis of bilirubin, Spectrochimica Acta Part A: Molecular and Bimolecular Spectroscopy 58, p. 2145.
- Yu, C., Irudayaraj, J., 2005. Spectroscopic characterization of microorganisms by Fourier transform infrared microspectroscopy, Biopolymers: Original Research on Biomolecules 77, p. 368.
- Investigation of Ising model on square lattice with the effect of Second nearest neighbour interaction
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1 School of Basic and Applied Sciences, Department of Physics, Central University of Tamil Nadu, Thiruvarur-610 005 Tamil Nadu, IN
1 School of Basic and Applied Sciences, Department of Physics, Central University of Tamil Nadu, Thiruvarur-610 005 Tamil Nadu, IN
Source
Research Cell: An International Journal of Engineering Sciences, Vol 32 (2020), Pagination: 21-28Abstract
We have investigated Ising like system on two dimensional square lattice with the effect of second nearest neighbour interactions. This system represents ferromagnetic material and it analyzed by Monte-Carlo technique. We have allowed the system to evolve under the Metropolis algorithm (Boltzmann technique) and the thermodynamic observables were calculated. The density of states also determined by using the Wang-Landau algorithm which is typically a non-Boltzmann Monte-Carlo technique. The thermodynamic observables were computed from the converged density of states. The transition temperature found to be changed when the second nearest neighbour was altered. The calculated density of states, average energy (internal energy) and the specific heat capacity have been plotted and discussed.Keywords
Monte-Carlo, Ising model, Metropolis, Wang-Landau.References
- D. P. Landau and K. Binder, A Guide to Monte Carlo Methods in Statistical Physics, Cambridge University Press, Cambridge, England (2000).
- N. Metropolis, A. W. Rosenbluth, M. N. Rosenbluth, A. H. Teller, and E. Teller, Equation of State Calculations by Fast Computing Machines, Journal of Chemical Physics, 21, 1087 (1953).
- F. Wang and D. P. Landau, Efficient, multiple-range random walk algorithm to calculate the density of states, Phy. Rev. Lett, 86, 2050 (2001).
- F. Wang and D. P. Landau, Determining the density of states for classical statistical models: A random walk algorithm to produce a flat histogram, Phys. Rev. E, 64, 056101 (2001).
- A. K. Murtazaev, M. K. Ramazanov and M. K. Badiev, Ising antiferromagnet with nearest-neighbor and next-nearest-neighbor interactions on a square lattice, Solid State Phenomena, 215, 17-21 (2014).
- Chenggang Zhou, T. C. Schulthess, Stefan Torbrugge and D. P. Landau, Wang-Landau Algorithm for Continuous Models and Joint Density of States, Phy. Rev. Lett, 96, 120201 (2006).
- N. Rathore, J. J. de Pablo, Monte Carlo simulation of proteins through a random walk in energy space. J. Chem. Phys. 116, 7225-7230 (2002).
- M. Suman Kalyan, K. P. N. Murthy, Monte Carlo study of force induced melting of DNA hairpin. Physica A, 428, 38-45 (2015).
- D. Jayasri, V. S. S. Sastry, K. P. N Murthy, Wang-Landau Monte Carlo simulation of isotropic-nematic transition in liquid crystals. Phys. Rev. E, 72, 036702 (2005).
- K. Mukhopadhyay, N. Ghoshal, S. K. Roy, Monte Carlo simulation of joint density of states in one-dimensional Lebwohl–Lasher model using Wang–Landau algorithm. Phys. Lett. A, 372, 3369-3374 (2008).