Productivity Rankings is an exclusive service provided by AD Scientific Index. This ranking system, derived from the i10 index, highlights the productivity of scientists in publishing impactful scientific articles. Productivity Rankings serves as a tool to identify highly productive scientists across specific areas, disciplines, universities, and countries, and supports the creation of effective incentives and academic policies. The global, regional, and institutional rankings of scientists in this table are calculated based on their total i10 index. Moreover, you can explore special rankings derived from Productivity Rankings, such as Scientists Last 6 Years' i10 Index, Universities Total i10 Index Rankings 2025, Universities Last 6 Years' i10 Index Rankings 2025, Art and Humanities i10 Productivity Rankings, and Social Sciences and Humanities i10 Productivity Rankings.
* Total i10 IndexRankings
Ranking Based On Selection :1
Rotordynamics
FEM
Fatigue & Damage Tolerence
Fault Detection
Vibration Analysis
i-10 Metrics
Total
Last 6 Years
Last 6 Years / Total
19
16
0.842
* Total i10 IndexRankings
Ranking Based On Selection :2
Compressible turbulence
scalar mixing
Lagrangian analysis
cavitating flows
i-10 Metrics
Total
Last 6 Years
Last 6 Years / Total
5
4
0.800
* Total i10 IndexRankings
Ranking Based On Selection :3
Dielectric coatings for superconductors
Tribology
Surface coating
wear
materials
i-10 Metrics
Total
Last 6 Years
Last 6 Years / Total
3
3
1.000
* Total i10 IndexRankings
Ranking Based On Selection :4
Vibration
Finite element method
Rotor-Dynamics
Functionally graded materials
composites
i-10 Metrics
Total
Last 6 Years
Last 6 Years / Total
1
1
1.000
Prabhakar Sathujoda
Bennett University
Greater Noida, India
i-10 Metrics
Total
Last 6 Years
Last 6 Years / Total
19
16
0.842
Rotordynamics
FEM
Fatigue & Damage Tolerence
Fault Detection
Vibration Analysis
Mohammad Danish
Bennett University
Greater Noida, India
i-10 Metrics
Total
Last 6 Years
Last 6 Years / Total
5
4
0.800
Compressible turbulence
scalar mixing
Lagrangian analysis
cavitating flows
Amit Kumar Singh
Bennett University
Greater Noida, India
i-10 Metrics
Total
Last 6 Years
Last 6 Years / Total
3
3
1.000
Dielectric coatings for superconductors
Tribology
Surface coating
wear
materials
Arnab Bose
Bennett University
Greater Noida, India
i-10 Metrics
Total
Last 6 Years
Last 6 Years / Total
1
1
1.000
Vibration
Finite element method
Rotor-Dynamics
Functionally graded materials
composites