Research

1. Excitation functions of the Zn(p,xn)Ga reactions, M. Hemalatha, A. Patel, S. Kailas, Applied Radiation and Isotopes, 156, 108968 (2020).

2. Prediction of reaction cross section for p-Cr, M. Hemalatha, N. Maladkar and S. Kailas, European Physical Journal, 107, 08006 (2016).

3. Verification of the sputter-generated 32SFn- (n=1-6) anions by accelerator mass spectrometry, R.G. Mane, P. Surendran, Sanjay Kumar, J.P. Nair, M.L. Yadav, M. Hemalatha, R.G. Thomas, K. Mahata, S. Kailas, and A.K. Gupta, Nucl. Inst. Meth. B366, 13 (2016).

4. Correlation between nuclear charge radii of Ti and reaction cross sections for p-Ti, M. Hemalatha, N. Maladkar and S. Kailas, Phy. Rev. C, 92, 024611 (2015).

5. Nuclear Transmutation Strategies for Management of Long Lived Fission Products, S. Kailas, M. Hemalatha, and A. Saxena, Pramana, 85, 517 (2015).

6. Elastic scattering of the halo nucleus ¹¹Be on ⁶⁴Zn, M. Hemalatha, European Physical Journal, 66, 03036 (2014).

7. Double folding model analysis of elastic scattering of halo nucleus ¹¹Be from ⁶⁴Zn around Coulomb barrier, M. Hemalatha, Pramana 82, 789 (2014).

8. Evolution of octupole collectivity in ²²¹Th, S.K. Tandel, M. Hemalatha, A.Y. Deo, and S.B. Patel, R. Palit, T. Trivedi, J. Sethi, and S. Saha, D.C. Biswas and S. Mukhopadhyay, Phys. Rev. C 87, 034319 (2013).

9. A study of secondary cosmic ray flux variation during the annular eclipse of 15 January 2010at Rameswaram, India, Ankush Bhaskara, Avadhut Purohit, M. Hemalatha, Chintamani Pai, Anil Raghav, Chetan Gurada, S. Radha, Virendra Yadav, Vishal Desai, Abhishek Chitnis, Padmanabh Sarpotdar, and Anirudha Patankar, Astroparticle Physics, 35, 223 (2011).

10. Weakening of the spin-orbit interaction with the increase of neutron number, M. Hemalatha, Y. K. Gambhir, W. Haider, and S. Kailas, Phy. Rev. C79, 057602 (2009).

11. Accelerator mass spectrometry programme and related developments at the BARC-TIFR Pelletron accelerator, P. Surendran, A. Shrivastava, A.K. Gupta, R.M. Kale, J. P. Nair, M. Hemalatha, K. Mahata, M.L. Yadav, H. Sparrow, R.G. Thomas, P.V. Bhagwat, and S. Kailas, Nucl. Inst. Meth. B267, 1171 (2009).

12. Microscopic optical model potentials for p-nucleus scattering at intermediate energies, M. Hemalatha, S. Kailas, W. Haider, and Y. K. Gambhir, Phys. Rev. C75, 037602 (2007).

13. Development of a high-sensitive fluorescence cell for measurement of atomic isotope shifts and hyperfine structures, M. Hemalatha, S. Kailas, A. Venugopalan, B. N. Jagatap, and K. G. Manohar, Nucl. Inst. Meth. A572, 971 (2007).

14. The study of exotic nuclei, M. Hemalatha, S. Kailas and Y.K. Gambhir, Hyperfine Interactions 162, 133 (2005).

15. Anomaly in the nuclear charge radii of Zr isotopes, M. Hemalatha, A. Bhagwat, A. Shrivastava, S. Kailas, and Y.K. Gambhir, Phy. Rev. C70, 044320 (2004).

16. Production of neutron-deficient nuclei ¹²⁷Cs and ¹²⁹Cs by heavy-ion fusion reaction, M. Hemalatha, S. Kailas, K. Mahata, A. Shrivastava, K. Ramachandran, and A. Chatterjee Nucl. Inst. Meth. A531, 645 (2004).

17. Beam energy calibration for the folded ion tandem accelerator, S. Santra, K. Mahata, P. Singh, C.V. Fernandes, M. Hemalatha, and S. Kailas, Nucl. Inst. Meth. A496, 44 (2003).