• Gulia P., Gupta A., “Enhancing the Sound Transmission Loss through Acoustic Double Panel Using Sonic Crystal and Porous Material”, Journal of Acoustical Society of America, Vol. 144, (2018), 1435-1442.

  • Gulia P., Gupta A., “Sound attenuation in triple panel using locally resonant sonic crystal and porous material", Applied Acoustics, Vol. 156, (2019), 113-119.

  • Gulia P., Gupta A., “Effect of Side Walls on the Sound Transmission Loss of Sonic Crystal”, Acoustical Physics, Vol. 64, no. 6 (2018), 665-672.

  • Gulia P., Gupta A., “Experimental study on the insertion loss of multilayer panels featuring a periodic structure”, Building Acoustics, Vol. 28, No. 4 (2021), 461-475.

  • Gulia P., Gupta A., “Band gap analysis of a three mass locally resonant structure", Noise and Vibration Worldwide, Vol. 52, no. 7-8 (2021), 222-229.

  • Gulia P., Gupta A., "Increasing low frequency sound attenuation using compounded single layer of sonic crystal", AIP conference proceedings, Vol. 1953, 140072 (2018).

  • Gulia P., Gupta A., "A Finite Element Study of Acoustic Wave Propagation through Sonic Crystal", Nonlinear Studies, Vol. 24, no. 1 (2017), 3-13.

  • Gulia P, Singh V. P., “Structural Analysis and Mobility Test of Fourteen Links Kinematic Chain Using Graph Theory”, Applied Mechanics and Materials, Vol. 592-594, (2014), 1165-1169.

  • Gulia P., Gupta A., “Acoustical applications of periodic structures and panels - A review", Acoustic Australia (Submitted).

  • Gulia P., Dogra S., Gupta A., “Acoustic Performance of Recyclable Bottles as Meta-material", Journal of Acoustical Society of America Express Letters (Under Review).

  • Dogra S., Gulia P., Gupta A., “Enhancing Acoustic Performance of Buildings Ducts using Waste Bottles ", Architectural Engineering and Design Management (Under Review)

  • Gupta A., Sharma R., Thakur A., Gulia P., “Metamaterial Foundation for Seismic Wave Attenuation for Low and Wide Frequency Band", Nature Scientific Reports (Under Review).

  • Sharma R., Gulia P., Gupta A., “Experimental study of a metamaterials foundation subjected to elastic waves", AIP Advances, (Submitted after revision).