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).