Lakshmana Dora Chandrala
Indian Institute of Technology Hyderabad
H-index: 11
Asia-India
Top articles of Lakshmana Dora Chandrala
A Study of Shock-Induced Transient Jets: The Impact of Exit Conditions on Mach Disk and Vortex Ring
Journal of Fluids Engineering
2024/8/1
Divya Rao
H-Index: 1
Lakshmana Dora Chandrala
H-Index: 6
Droplet size distribution in a swirl airstream using in-line holography technique
Journal of Fluid Mechanics
2023
Size distribution of a drop undergoing breakup at moderate Weber numbers
Journal of Fluid Mechanics
2023/2
An experimental investigation of droplet morphology and size distribution in swirl flow
Journal of Fluid Mechanics
2022/5
An experimental study of flow patterns near a moving contact line
Bulletin of the American Physical Society
2022/11/21
Epithelial plasticity in COPD results in cellular unjamming due to an increase in polymerized actin
Journal of cell science
2022/2/15
Characteristics of shock tube generated compressible vortex rings at very high shock Mach numbers
Physics of Fluids
2021/9/1
Evaporation dynamics of a sessile droplet of binary mixture laden with nanoparticles
Langmuir
2021/5/13
Saravanan Balusamy
H-Index: 18
Sayak Banerjee
H-Index: 8
Lakshmana Dora Chandrala
H-Index: 6
Kirti Chandra Sahu
H-Index: 21
Epithelial Plasticity in COPD Epithelia Is Associated with Mitochondrial Dysfunction
The FASEB Journal
2021/5
Flow structure and turbulence in the near field of an immiscible buoyant oil jet
Physical Review Fluids
2021/2/2
Effect of sub-chronic exposure to cigarette smoke, electronic cigarette and waterpipe on human lung epithelial barrier function
BMC Pulmonary Medicine
2020/12
Impact of dispersant on crude oil content of airborne fine particulate matter emitted from seawater after an oil spill
Chemosphere
2020/10/1
Effect of Vaping Electronic-Cigarettes Aerosols on the Airway Barrier Function: A Pilot Study
2020/5
Phase-conditioned turbulent statistics of an immiscible buoyant jet in the near-field
APS Division of Fluid Dynamics Meeting Abstracts
2020
Quantifying Epithelial Plasticity as a Platform to Reverse Epithelial Injury
bioRxiv
2020/1/15