Dr. Vilas Ramji Chirde
Associate ProfessorGopikabai Sitaram Gawande College, India
Highest Degree
Ph.D. in Mathematics from Sant Gadge Baba Amravati University, Amravati, India
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Biography
Dr V R Chirde Assistant Professor at Gopikabai Sitaram Gawande College Umarkhed affliated to SGB Amravati University Amravati . Published 49 research papers in national and international journals , 39 of them are read in national and international conferences , also one minor research project has been completed. Expert in many areas of theories of gravitation . Working as a BOS member in mathematics at SGB Amravati University Amravati.
Area of Interest:
Selected Publications
- Chirde, V.R., V.P. Kadam, 2016. Bianchi type III cosmological models with strange quark matter attached to string cloud in brans-dicke theory of gravitation and general theory of relativity. Caribbean J. Sci. Techenol., 4: 920-930.
Direct Link | - Chirde, V.R., 2016. Hypersurface-homogenous models with perfect fluid and dark energy. Prespacetime J., 1: 113-125.
- Chirde, V.R. and V.P. Kadam, 2016. Accelerating and decelerating cosmological models with strange quark matter attached to cosmic string in general relativity. Int. J. Univ. Math. Math. Sci., 2: 62-72.
- Chirde, V.R. and S.H. Shekh, 2016. Plane symmetric dark energy models in the form of wet dark fluid in f (R,T) gravity. J. Astrophys. Astrol., Vol. 37. 10.1007/s12036-016-9391-z.
CrossRef | Direct Link | - Bhoyar, S.R., V.R. Chirde and S.H. Shekh, 2016. Physical aspects of bianchi type with quadratic equation of state in f(R) gravity. Prespacetime J., 7: 456-466.
- Chirde, V.R. and S.H. Shekh, 2015. LRS bianchi type-i universe with both deceleration and acceleration in f (R, T) gravity. Prespacetime J., 6: 929-942.
Direct Link | - Chirde, V.R. and S.H. Shekh, 2015. Interacting two-fluid viscous dark energy models in self creation cosmology. Afr. Rev. Phys., 9: 399-409.
Direct Link | - Chirde, V.R. and S.H. Shekh, 2015. Dark energy cosmological model in a modified theory of gravity. Astrophysics, 58: 106-119.
CrossRef | Direct Link | - Chirde, V.R., S.H. Shekh and P.N. Rahate, 2014. Two fluids viscous dark energy cosmological models with linearly varying deceleration parameter in self creation cosmology. Prespacetime J., 5: 894-904.
Direct Link | - Chirde, V.R. and V.P. Kadam, 2014. Bianchi type-V magnetised bulk viscous massive string cosmological model in sclar tensor theory of gravitation. Int. J. Math. Arch., 5: 208-216.
- Chirde, V.R. and S.H. Shekh, 2014. Cosmological models with magnetized anisotropic dark energy in Lyra geometry. Int. J., 2: 1103-1114.
Direct Link | - Chirde, V.R. and S.H. Shekh, 2014. Barotropic bulk viscous FRW cosmological model in teleparallel gravity. Bulg. J. Phys., 41: 258-273.
- Bhoyar, S.R., V.R. Chirde and S.H. Shekh, 2014. Non-static plane symmetric cosmological model with magnetized anisotropic dark energy by hybrid expansion law in),(TRf gravity). Int. J. Adv. Res., 3: 492-500.
- Chirde, V.R., V.P. Kadam and S.R. Bhoyar, 2013. Five dimensional space-time in general relativity. Int. J. Statistika Mathematika, 8: 54-56.
- Chirde, V.R. and V.P. Kadam, 2013. Six-dimensional bianchi type-I universe with wet dark fluid in general relativity. Prespacetime J., 4: 690-704.
Direct Link | - Chirde, V.R. and P.N. Rahate, 2013. String cosmological model in self creation cosmology. Int. J. Phys. Chem. Math. Sci., 2: 100-105.
- Chirde, V.R. and P.N. Rahate, 2013. Bianchi type-v cosmological model with bulk viscosity in scale covariant theory. Prespacetime J., 4: 609-618.
- Chirde, V.R. and P.N. Rahate, 2013. Bianchi type-i universe with wet dark fluid in scalar-tensor theory of gravitation. Global J. Sci. Frontier Res., Vol. 13. .
Direct Link | - Chirde, V.R. and P.N. Rahate, 2012. FRW cosmological solution in self creation theory. Int. J. Theoret. Phys., 51: 2262-2271.
Direct Link | - Chirde, V.R. and P.N. Rahate, 2012. Bianchi type-V isotropic cosmological model with strang quark matter attached to cosmic string. Int. J. Mathemat. Arch., 3: 426-431.
- Chirde, V.R. and P.N. Rahate, 2012. Axially symmetric dark energy cosmological model in scalar tensor theory of gravitation. Prespacetime J., 3: 609-616.
- Chirde, V.R., A.M. Metkar, S.R. Bhoyar and A.G. Deshmukh, 2011. (z-t)-type plane wave solutions of weakened field equatoins. Prespacetime J., 2: 1851-1854.
- Bhoyar, S.R., V.R. Chirde, S.D. Katore and A.G. Deshmukh, 2011. The motion of test particle in Z = (t/z)-type plane gravitational waves in plane symmetry. Prespacetime J., 2: 651-655.
- Bhoyar, S.R., V.R. Chirde, S.D. Katore and A.G. Deshmukh, 2011. Plane symmetric solutions of einstein-maxwell with the co-existence of null fluids and null currents. Afr. Rev. Phys., 6: 161-163.
- Bhoyar, S.R., V.R. Chirde and A.G. Deshmukh, 2011. The Z = (t/z)-type plane gravitational waves and electromagnetic waves with massless scalar plane waves and massive scalar waves in plane symmetry. Prespacetime J., 2: 1377-1379.
- Bhoyar, S.R., V.R Chirde and A.G. Deshmukh, 2011. Energy momentum pseudo tensor in higher dimensional space-time. J. Vector. Relativity, 6: 37-45.
- Bhoyar, S.R., V.R. Chirde, A.G. Deshmukh and D.D. Pawar, 2010. Generalized peres plane wave-like solutions in general projective relativity. J. Vector. Relativity, 5: 17-21.
- Khade, P.P., V.R. Chirde and A.G. Deshmukh, 2007. The space-time P. Vidrabha J. Sci., 2: 4-7.
- Chirde, V.R., A.M. Metkar and A.G. Deshmukh, 2007. Some properties of purely plane gravitational waves Gij (Z). Bull. Calcutta Mathemat. Soc., 30: 7-12.
- Metkar, A.M., V.R. Chirde and A.G. Deshmukh, 2006. Plane symmetric inhomogeneous models in presence of massive scalar field and prefect fluid distribution in general relativity. Aryabhata Res. J. Phys. Sci., 9: 1-2.
- Chirde, V.R., A.M. Metkar and A.G. Deshmukh, 2006. Plane wave solutions of Einstein-Maxwell equations with the coexistence of null fluids and null currents. Acta Ciencia Indica Mathemat., 32: 619-623.
- Chirde, V.R., A.M Metkar and A.G. Deshmukh, 2006. The coordinate system in which gaα = 0, for the plane gravitational waves Z = (z-t) Type & Z = (t/z) type. Applied Sci., 8: 265-267.