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1. Active fluidization in dense glassy systems, Soft Matter, 12, 6268 (2016),
Rituparno Mandal, Pranab Jyoti Bhuyan, Madan Rao and Chandan Dasgupta
2. Glassy swirls of active dumbbells, Phys. Rev. E, 96, 042605 (2017),
Rituparno Mandal, Pranab Jyoti Bhuyan, Pinaki Chaudhuri, Madan Rao and Chandan Dasgupta
3. A random first-order transition theory for an active glass , Proc. Natl. Acad. Sci. USA, 115(30) (2018),
Saroj Kumar Nandi, Rituparno Mandal, Pranab Jyoti Bhuyan, Chandan Dasgupta, Madan Rao and Nir. S. Gov
4. Interactive passive advective scalars in an active medium, Phys. Rev. E 98 (5), 052608 (2018),
SK Raj Hossein, Rituparno Mandal and Madan Rao
5. Complex dynamics of a sheared nematic fluid, J. Phys.: Condens. Matter 32 (13), 134002 (2019),
Rituparno Mandal, Buddhapriya Chakrabarti, Debarshini Chakraborti and Chandan Dasgupta
6. Aging effects on thermal conductivity of glass-forming liquids, Phys. Rev. E 101, 022125 (2020),
Pranab Jyoti Bhuyan, Rituparno Mandal, Pinaki Chaudhuri, Abhishek Dhar and Chandan Dasgupta
7. Extreme active matter at high densities, Nat. Commun.,11, 2581 (2020),
Rituparno Mandal, Pranab Jyoti Bhuyan, Pinaki Chaudhuri, Chandan Dasgupta and Madan Rao
8. Multiple Types of Aging in Active Glass, Phys. Rev. Lett. 125, 218001(2020),
Rituparno Mandal and Peter Sollich
9. How to Model a Persistent Active Glass, J. Phys.: Condens. Matter, 33, 184001 (2021),
Rituparno Mandal and Peter Sollich
10. Interaction from Structure using Machine Learning: in and out of Equilibrium, Soft Matter, 17, 8322 (2021),
Saientan Bag and Rituparno Mandal
11. Shear Induced Orientational Ordering in an Active Glass Former, Proc. Natl. Acad. Sci. USA, 118 (39) (2021),
Rituparno Mandal and Peter Sollich
12. Memory in Non-Monotonic Stress Response of an Athermal Disordered Solid, Phys. Rev. Research, 3, 043153 (2021),
Rituparno Mandal, Diego Tapias and Peter Sollich
13. Mean field description of aging linear response in aathermal amorphous solids, Phys. Rev. Materials 6, 065601 (2022),
Jack T. Parley, Rituparno Mandal and Peter Sollich
14. Robust Prediction of Force Chains in Jammed Solids using Graph Neural Network, Nat. Commun., 13, 4424 (2022),
Rituparno Mandal, Corneel Casert and Peter Solliich
15. Unjamming and emergent nonreciprocity in active ploughing through a compressible viscoelastic fluid, Nat. Commun., 13, 4533 (2022),
Jyoti Prasad Banerjee, Rituparno Mandal, Debsankar Banerjee, Shashi Thutupalli and Madan Rao
16. The Random First Order Transition Theory of Active Glass in the High-Activity Regime, J. Phys. Commun. 6, 115001 (2022),
Rituparno Mandal, Saroj Kumar Nandi, Chandan Dasgupta, Peter Sollich and Nir S. Gov
17. Intermittent relaxation and avalanches in extremely persistent active matter, Soft Matter, 19 (21), 3871-3883 (2023),
Yann-Edwin Keta, Rituparno Mandal, Peter Sollich, Robert L. Jack, and Ludovic Berthier
18. Robustness of travelling states in generic non-reciprocal mixtures, Phys. Rev. E 109, L062602 (2024),
Rituparno Mandal, Santiago Salazar Jaramillo, Peter Sollich
19. Long-range Velocity Correlations from Active Dopants, Communications Physics, 7, 289 (2024),
Leila Abbaspour, Rituparno Mandal, Peter Sollich and Stefan Klumpp
20. Kovacs-like memory effect in a sheared colloidal glass: role of non-affine flows, Soft Matter, 21, 2958 - 2966 (2025),
Maitri Mandal, Abhishek Ghadai, Rituparno Mandal and Sayantan Majumdar
21. Reentrant melting of scarred odd crystals by self-shear, Nat. Commun., 17, 1802 (2026),
Uttam Tiwari, Pragya Arora, A. K. Sood, Sriram Ramaswamy, Rituparno Mandal & Rajesh Ganapathy
1. Stratification, multivalency and turnover of the active cortical machinery are required for the attainment of steady active contractile flows at the cell surface, arXiv:2105.11358,
SK Raj Hossein, Rituparno Mandal and Madan Rao
2. Odd elasticity from cyclic memory erasure in driven granular matter, arXiv:2311.18720,
Rosalind Huang, Rituparno Mandal, Colin Scheibner, Michel Fruchart and Vincenzo Vitelli
3. Learning dynamical behaviors in physical systems, arXiv:2406.07856,
Rituparno Mandal, Rosalind Huang, Michel Fruchart, Pepijn G. Moerman, Suriyanarayanan Vaikuntanathan, Arvind Murugan and Vincenzo Vitelli
4. Nonreciprocal Model B: The role of mobilities and nonreciprocal interfacial forces, arXiv:2508.02814
Bibhoot Chandan Sahoo, Rituparno Mandal and Peter Sollich
5. Effects of Non-reciprocity on Coupled Kuramoto Oscillators, arXiv:2511.15845
Shaon Chakraborty Mandal, Bibhoot Chandan Sahoo, Peter Sollich and Rituparno Mandal†
6. Trainable amorphous matter: tuning yielding by mechanical annealing, arXiv:2512.01019
Maitri Mandal, Pappu Acharya, Rituparno Mandal and Sayantan Majumdar
Glassy Dynamics in Active Matter, http://etd.iisc.ac.in/handle/2005/4233,
Rituparno Mandal
https://researchmatters.in/news/body-cells-bird-flocks-decoding-glassiness
https://www.uni-goettingen.de/en/73613.html?id=6084
https://phys.org/news/2020-11-physicists-simulation-aging-glassy.html
https://www.uni-goettingen.de/en/73613.html?id=6409
https://www.uni-goettingen.de/en/3240.html?id=6791
https://phys.org/news/2022-09-neural-networks-granular-solids.html
https://datascience.uchicago.edu/insights/developing-a-smart-material-that-can-learn-from-example/