Accredited at “A++” grade (highest level as per modified criteria notified on 27.07.2017) by NAAC and Conferred “University with Potential for Excellence” status by UGC

Department :  Electronics Technology

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Name:Dr Shalini Bahel
Areas of Interest / SpecializationMicrowave Materials, Dielectric Ceramics, Digital and Microwave Communication
Best Ten Publications:1. Shalini Bahel and S. B. Narang, Synthesis and dielectric properties of a temperature stable ceramic: Ba4La3.73Sm4.66Bi0.93Ti18O54. Ferroelectrics Letters Section. Vol. 39, Issue 1-3 (2012) 31-37. 2. S. K. Jaswal, Shalini Bahel, S. B. Narang and S.K. Chawla, Absorption Properties of Lanthanum and Samarium Substituted Barium Titanates. Ferroelectrics Letters Section, Vol. 38, Issue 1-3 (2011) 24-30. 3. S. Bindra Narang, Shalini Bahel and S. Dash, Influence of Bi substitution on microwave dielectric properties of BaO-La2O3-Sm2O3-TiO2 ceramics, J. Mater. Sci.- Mater. In Electronics, Vol. 21, No 11 (2010) 1186-1190. 4. S. Bindra Narang and Shalini Bahel, Low loss dielectric ceramics for microwave applications: a review, Journal of Ceramic Processing Research, Vol. 11, No. 3 (2010) 316-321. 5. S. Bindra Narang and Shalini Bahel, Influence of frequency variation on dielectric properties of Sm doped Ba4La9.33Ti18O54 dielectric ceramics at different temperature, Material Science - Poland, Vol. 28, No. 1 (2010) 305-312. 6. Shalini Bahel and S. Bindra Narang, Optimization of dielectric properties of barium rare-earth titanate by complex substitution, Ceramic International, 36 (2010) 251-255. 7. S. Bindra Narang, Shalini Bahel and S. K. Chawla, Effects of temperature variation on dielectric properties of Ba4(La(1-z)Biz)9.33Ti18O54 solid solutions, Ferroelectric Letters Section, Vol 36, Issue 5-6 (2009) 119-128. 8. Shalini Bahel and S. Bindra Narang, Temperature dependent dielectric properties of Ba-La-Sm-Bi-Ti-O ceramic system, Integrated Ferroelectrics, Vol. 107, Issue 1 (2009) 92-104. 9. Shalini Bahel and S. Bindra Narang, Dielectric and structural characteristics of Sm doped Ba4La9.33Ti18O54 microwave ceramics, Material Science - Poland, Vol. 26, No. 3, (2008) 555-561. 10. Sukhleen B. Narang, Dalveer Kaur and Shalini Bahel, Dielectric properties of lanthanum substituted barium titanate microwave ceramics, Material Letters, Vol. 60, Issues 25-26 (2006) 3179-3182.
Awards and Honours:UGC-NET (JRF) & GATE Cleared