non equilibrium dynamics interacting particles

The Department of Physics is going to host the sixth instalment of the Eminent Guest Lecture Series: An Odyssey of Physics on March 19, 2022, at 03.00 PM IST with Prof Parongama Sen from the University of Calcutta as the keynote speaker. Dr Sen will be speaking on” Non-equilibrium dynamics of interacting particle systems with annihilation”.

Prof Parongama Sen has been teaching at the University of Calcutta as Professor since 2008. She received her PhD from Saha Institute of Nuclear Physics, Calcutta in 1993. She was also awarded APS-IUSSTF Professorship in 2012-13. Her research interests include statistical physics: phase transitions and critical phenomena in magnetic systems, networks, quantum systems, percolation etc. and dynamical phenomena in complex physical and social systems.

Non-equilibrium dynamics of interacting particle systems with annihilation

There has been tremendous research activity on the evolution of systems comprising of interacting particles in Statistical Physics over the last few decades. This lecture particularly considers those systems in which the particles (also called reactants) may get annihilated instantaneously upon contact or merged as a single species, both of which reduce the particle number. Some of these processes have a one-to-one correspondence with the coarsening dynamics of spin systems and play an important role in the development of non-equilibrium Statistical Physics.

Usually, one considers diffusive motion when the particles move freely, and some known results in this context will be discussed. Here, the speaker notes that the dynamics may also be considered in terms of population densities rather than individuals and examples include models of epidemic spreading.

Finally, she will focus on a model in which the reactant particles are driven by a dynamic bias that radically changes the scaling behaviour of the relevant quantities. The results will be presented for such a system, highlighting the microscopic dynamics, which reveal a crossover behaviour.

Register here for an informative session with Prof Parongama Sen.

Applications of Machine Learning Methods

The Department of Physics at SRM University-AP is organising a one-day symposium with national and international academicians on the theme Applications of Machine Learning Methods in Physics. The programme which will begin at 10.00 am on December 18, 2021, will deeply look into two domains of research, namely Particle Physics and Statistical Physics. Eminent experts from computer science and physics domains will deliver talks for a wider audience, especially for students of basic sciences and engineering streams. The event is going to be entirely through Online mode. Dr Amit Chakraborty and Dr Soumyajyoti Biswas from the Department of Physics, SRM University-AP are the conveners of the symposium.

Register here!

Programme Schedule of the Invited Lectures:

Time: 10.05 – 11.05 AM (IST)
Speaker: Prof Vineeth N Balasubramanian (IIT Hyderabad)
Title: Explainable Deep Learning: Overview, Trends and Challenges

Abstract: The last decade has seen rapid strides in Artificial Intelligence (AI) moving from being a fantasy to a reality that is a part of each one of our lives, embedded in various technologies. A catalyst of this rapid uptake has been the enormous success of deep learning methods for addressing problems in various domains including computer vision, natural language processing, and speech understanding. However, as AI makes its way into risk-sensitive and safety-critical applications such as healthcare, aerospace and finance, it is essential for AI models to not only make predictions but also be able to explain their predictions. This talk will introduce the audience to this increasingly important area of explainable AI, describe salient methods in explainable deep learning, discuss open challenges as well as present some of our recent research in this domain.

Time: 11.30 AM – 12.30 PM (IST)
Speaker: Dr Girish Varma (IIIT Hyderabad)
Title: Deep Generative Methods and Applications

Abstract: Generative methods deals with the modelling of complex high dimensional probability distributions. With the advent of deep neural networks, these methods have become more common with the discovery of new techniques like GANs. Such methods can learn to generate images, graphs etc even without using labelled data. In this talk, we will give some of the common deep generative modelling techniques like GANs, Variational Autoencoders, Normalizing Flows. We will also look at some example applications in Style Transfer, Super Resolution in Computer Vision, Conditional Generation of Molecules in Physics etc.

Time: 2.00 – 3.00 PM (IST)
Speaker: Dr Sanmay Ganguly (University of Tokyo, Japan)
Title: The Deep Relation Between Particle Physics and Machine Learning

Abstract: At the CERN Large Hadron Collider (LHC) experiment, trillions of protons get smashed with each other at very high energies every second. Remnants of this collision are collected and studied to infer what fundamental interactions are happening at the core. Analysing and extracting meaningful physics information out of this large data is a highly challenging statistical analysis, part of which has to be carried out in real-time. Modern deep learning techniques have brought a change in paradigm in the whole field, where it is observed that the application of ML truly impacts at all corners. In this presentation the speaker will try to give a general overview of the ongoing ML activities, mainly highlighting the areas in the context of LHC physics and shortly touch other branches of HEP.

Time: 3.30 – 4.30 PM (IST)
Speaker: Prof Lasse Laurson (Tampere University, Finland)
Title: Machine Learning Plastic Deformation of Crystals

Abstract: The speaker will present an overview of our recent efforts to apply machine learning to predict the fluctuating plastic deformation process of small crystals, mediated by the stress-driven motion of dislocations. To this end, we use machine learning to establish mappings between the initial state of a sample and the corresponding stress-strain curve, considering different loading protocols and geometries of the dislocation assembly. He will start with a discussion of machine learning the depinning process of edge dislocation pileups, after which he will consider the problem of machine learning-based prediction of the stress-strain response of two- dimensional systems of discrete dislocations subject to stress-controlled and strain-controlled loading.

Register soon and claim your seats at this one-day international online symposium organised by the Department of Physics, SRM University-AP!!

The 5th installment of the Eminent Guest Lecture Series: An Odyssey of Physics is being brought to you by the Department of Physics at SRM University-AP on November 20, 2021
at 10 AM IST
. Our eminent guest speaker is Dr M.S. Ramachandra Rao from the Department of Physics, Quantum Centre for Diamond and Emergent Materials (QuCenDiEM), Nano Functional Materials Technology Centre, and Materials Science Research Centre, Indian Institute of Technology (IIT) Madras.

About the Speaker:

Dr Rao is one of the forerunning researchers in Physics in our country and has been invited by the Nobel Committee for Physics, Royal Swedish Academy of Sciences, to be a nominator in the years 2009 and 2021. He has authored the books “Nanoscience and Nanotechnology: Fundamentals to Frontiers” (Wiley) – Textbook. ISBN: 9788126542017 and “ZnO nanostructures and Allied Materials” (Springer).

Dr Rao obtained both his Master’s degree and Doctorate from the Indian Institute of Technology, Kharagpur. Over the course of his 26 years of teaching and research experience, he has published in over 200 national and international conference papers, 284 international journals, obtained 15 patents and four technology transfers, completed 20 projects, and delivered over 90 talks.

Dr Ramachandra Rao’s research team incubated a company in IITM Research Park (Kapindra). The company deals with diamond coating for industrial/defence/space applications. It is in the process of developing a product for water purification using diamond-coated electrodes. His team won the 1st prize in the DRDO Dare-to-Dream nationwide contest for their proposal to use diamond coatings in hypersonic technologies.

About the talk: Emergence: Modern Physics to Nanoscience to Advanced and Quantum Materials

The beginning of the 20th century has dawned a new era of modern physics with the evolution of a plethora of experimental techniques that include understanding of optical and x-ray spectra, Rutherford scattering, Stern-Gerlach experiment that led to the discovery of electron spin, with simultaneous progress in the fields of superconductivity, magnetism, spintronics, crystallography and the physics of low dimensional systems that in other words is termed as nanoscience which deals with 2D, 1D and 0D systems. We know that matter is made up of atoms, atoms make up crystal lattices, and electronic correlations play an important role in determining the physical properties of materials. I will explain the enormous progress materials science has made and the potential it offers in various technologies. I will talk about the emergence of ‘quantum materials’ and how quantum effects are inherently built-in certain material systems, for example, high-temperature superconductors. I will give examples citing potential applications of functional materials and brief about diamond, the wonder material for futuristic quantum applications.

The third edition of the Eminent Guest Lecture Series: An Odyssey of Physics organised by the Department of Physics at SRM University-AP will be held on September 04, 2021, Saturday at 3.00 pm. The session will be engaged by Prof D Narayana Rao from the University of Hyderabad on the topic “1D and 3D Photonic Crystals and their Applications”.

Abstract of the event:

There will be a brief introduction to the Photonic crystals, followed by our laboratory results. Our work mainly concentrated on optical field enhancement in both the 1D and 3D photonic crystals. Such strong local field enhancement is essential for reducing the high power laser requirements in nonlinear optics experiments. These photonic crystals have been prepared through various techniques like sol-gel, slow evaporation method and RF sputtering technique. Prof D Narayana Rao will show some results on surface-enhanced Raman studies and optical limiting and white light generation.

All are invited to join this lecture on September 04, 2021, at 3.00 pm to gain an insightful overview of 1D and 3D photonic crystals and their applications.

Register here:

The Department of Physics at SRM University-AP, Andhra Pradesh offers an interdisciplinary BSc (Hons) programme that provides practical training to students on the model and design solutions. In the interactive webinar titled “BSc (Hons.) in Physics: Job and Research opportunities”, Dr Jatis Kumar Dash, Assistant Professor from the Department of Physics will explicate the research areas and job opportunities of BSc Physics on August 7, 2021, at 3.00 pm.

Students pursuing BSc Physics at SRM University-AP receive support to conduct research in a wide range of fields including fabrication of two-dimensional materials and their electronic devices, material genomics, applied photonics and optical communications, piezoelectricity and ferroelectricity, high-k dielectrics, thermoelectric devices, molecular electronics, photovoltaic devices and energy applications.

To know more about the programme/course structure, selection process, research areas, career options, and higher education opportunities of BSc Physics, join this immersive webinar on August 7, 2021, at 3.00 pm.

Register here:

The Department of Physics at SRM University-AP is organising the second edition of the Eminent Guest Lecture Series: An Odyssey of Physics on July 24, 2021, Saturday at 3.00 pm. The session will be engaged by Prof S Patnaik from the School of Physical Sciences in Jawaharlal Nehru University, New Delhi on the subject “New Materials for Energy and Information Storage and Transmission”. Prof. V S Rao, Vice-Chancellor; Prof. D. Narayana Rao, Pro-Vice-Chancellor; Prof. C Durga Rao, Associate Dean, SLASS; Prof. Ranjit Thapa; Prof. Amit Chakraborty; and Prof. Pranab Mandal from the Department of Physics at SRM University-AP will be the panellists for the session.

The discovery of Dirac and Weyl semimetals (WSM) has brought forth the condensed-matter realization of Dirac/Weyl fermions, which were previously theorised as low energy excitations in high energy particle physics. In the recent past, we have witnessed some exceptional developments in chalcogenide and pnictide materials that have been identified with such properties. Several age-old industrial materials based on selenides, tellurides, borides and oxides have come to the fore that promise to usher in a new understanding of correlated electronic systems. Towards material implementation of quantum computation, we shall review the electromagnetic properties of topological superconductor SrxBi2Se3 and study its pairing mechanism. Several transition metal mono-pnictides are under intense investigation for understanding the properties of inversion-symmetry broken Weyl semimetals. Non-trivial Berry phase and chirality are important markers for characterizing topological aspects of Weyl semimetals. We shall discuss aspects of exceptional magneto-resistance seen in the normal state of these topological semimetals. In specific, we shall summarize potential applications with regard to material properties of the following systems a) Single-stage cryocooled superconducting magnets for MRI (MgB2), b) Cables for lossless energy transmission and storage (Bi2Sr2Ca2Cu3O10), c) Materials to implement Quantum Computation (Sr intercalated Bi2Se3), d) Better read-heads for magnetic storage devices (NbP, TaSb2), e) Magnetic Nano-particles for Cancer therapy (Co+CoO EB), f) Thermoelectric materials for waste heat scavenging (ZrNiPb), g) Next-generation piezo devices using multiferroic materials. (Y2CoMnO6) and h) new ideas on solar energy and battery applications.

About the Speaker:
Dr S Patnaik is a distinguished professor at the School of Physical Sciences at Jawaharlal Nehru University (JNU), New Delhi. He has more than 16 years of experience in the field of research and academics. Dr Patnaik has over 5000 citations for published works. He has international collaborations with the University of Wisconsin-Madison, USA, Université Paris Sud, Orsay, France, University of Cambridge, Cambridge, UK and Institute of Physics, Chinese Academy of Sciences, Beijing. Dr Patnaik’s areas of interest or specialisation are Experimental Condensed Matter Physics, Superconductivity, Mutiferroics and Thermoelectric materials.

Join this educative lecture session on July 24, 2021, at 3.00 pm.

Register here:

The department of Physics at SRM University-AP, Andhra Pradesh offers an interdisciplinary BSC (Hons) programme that provides practical training to students on the model and design solutions. In the interactive webinar titled “Salient Features and Career Options for BSc (Hons) Physics at SRM University AP”, Dr Jatis Kumar Dash, assistant professor from the Department of Physics will explicate the career options and higher education opportunities of BSc Physics on July 04, 2021, at 4.00 pm.

Students pursuing BSc Physics at SRM University-AP receive support to conduct research in a wide range of fields including fabrication of two-dimensional materials and their electronic devices, material genomics, applied photonics and optical communications, piezoelectricity and ferroelectricity, high-k dielectrics, thermoelectric devices, molecular electronics, photovoltaic devices and energy applications.

To know more about the programme/course structure, selection process, research areas, career options, and higher education opportunities of BSc Physics, join this immersive webinar on July 04, 2021, at 4.00 pm.

Register here:

The Department of Physics, SRM University-AP, Andhra Pradesh, organizes a continual online and offline Lecture Series entitled “Eminent Guest Lecture Series: An Odyssey of Physics” to understand the recent advances and future developments in the field of Physics and allied sciences. The first seminar of this lecture series, on the theme Beyond the Periodic Table of Elements is scheduled to be held on June 19, 2021 at 5.00 pm (IST). Prof Puru Jena, distinguished Professor of Physics at Virginia Commonwealth University, USA will enlighten and engage the session with his extensive knowledge and expertise in the domain.

Abstract: The periodic table created by Mendeleev in 1869 is the mother of all materials. The realization that the physics and chemistry of materials at the nanoscale can be very different from their bulk and that their properties in small clusters can be tailored one atom at a time led to the hypothesis, more than twenty years ago, that stable atomic clusters with specific size and composition and mimicking the chemistry of atoms can be designed and synthesized. These clusters, known as superatoms, can form the building blocks of a new three-dimensional periodic table as well as a new class of cluster-assembled materials. In this talk, Dr Puru Jena will outline the considerable progress that has been made over the years by focusing on superalkalis and superhalogens, which mimic the chemistry of alkalis and halogens, respectively and can be used to form supersalts with uncommon properties. The ionization energies of superalkalis are less than those of alkali atoms while the electron affinities of superhaloegns are larger than those of halogen atoms. He will present examples where these superions are used to promote unusual chemistry making noble gas atoms form chemical bonds at room temperature, superhalogens forming halogen-free electrolytes in Li-ion batteries, superalkalis as building blocks of new electrides where the electron is completely detached from the host and remain localized pretending to be an anion without a nucleus, superhalogens as building blocks of multiferroic materials, and supersalts capable of enhancing the Curie temperature of 2D materials. The synergy between first principles theory and experiments in advancing our understanding of matter at the nanoscale will be highlighted.

About the Speaker: Dr Puru Jena is a Distinguished Professor of Physics at Virginia Commonwealth University and received his Ph. D. in Physics from the University of California at Riverside. He also served as Program Director at the National Science Foundation and as Jefferson Science Fellow and Senior Science Advisor at the US Department of State. Dr Jena’s research covers a wide range of topics in Nano-structured Materials, Condensed Matter Physics, and Materials Science. These include structure and properties of metals, semiconductors, superconductors, alloys, liquid metals, point and complex defects, surfaces, thin films, atomic clusters, and cluster assembled materials. His current research is focused on three major areas: Structure and properties of nano-clusters and cluster assembled materials (0 D), nanotubes and nanowires (1D) and mono- and multi layered materials (2D) with emphasis on energy storage; electronic, magnetic, and optical properties. Dr Jena is the author of nearly 630 papers including 14 edited books with Google citations and H index at 31,300 and 88, respectively. He has given over 425 invited talks in international conferences and academic institutions in 29 countries around the world and has organized 50 international conferences. He has received over $15 million dollars of funding from federal agencies such as the Department of Energy, Department of Defense, National Science Foundation, and NASA. His many honours include being the Fellow of the American Physical Society; Outstanding Scientist of Virginia; Outstanding Faculty of Virginia; Presidential Medallion, University Award of Excellence, and Outstanding Scholar from Virginia Commonwealth University. He has served as a member of numerous scientific panels including on the Presidential Commission on bilateral scientific collaboration between USA and Russia.

We welcome you to actively participate in this scholarly lecture series on 19 June 2021 at 5.00 pm (IST). For more details and registration, kindly visit the links given below:

Registration Link:

Know more about Prof Jena:

The Department of Physics, SRM University-AP, Andhra Pradesh, has organised a National Symposium on High Energy Physics on Saturday, May 1, 2021, at 11 am. Leading Physicists of the nation are going to share their perspective on the progress and recent challenges in Particle Physics, Dark Matter Physics and Gravitational-Wave Astronomy. Padma Shri awardee Prof Rohini Godbole, theoretical particle physicist at the Indian Institute of Science (IISc), Bengaluru, will present the inaugurating talk on “Status of Particle Physics: in light of Nobel Prizes of 2013 and 2015”. Prof Basudeb Dasgupta from the Tata Institute of Fundamental Research (TIFR), Mumbai, will join us for the next session on “The Mystery of Invisible Mass”. The last talk of the day will be given by Prof. Bala Iyer from the International Centre for Theoretical Sciences (ICTS), Bengaluru. He will shed light on “The Detection of Gravitational Waves and the Dawn of Multi-messenger Astronomy”.

Our first speaker of the day, Prof Rohini M Godbole, is a theoretical particle physicist at the Indian Institute of Science, Bangaluru. Over the past three decades, she has worked extensively on particle physics phenomenology, exploring different theoretical aspects of Standard Model and Beyond Standard Model physics at high energy collider experiments. She is an elected fellow of all the three Academies of Science of India and the Science Academy of the Developing World (TWAS). She has published over 200 research papers and received numerous recognitions from all over the world. Prof Godbole co-edited the book “Lilavati’s Daughters”, a collection of biographical essays on women scientists of India, which was published by the Indian Academy of Sciences. In 2019, she was awarded Padma Shri, the fourth highest civilian honour of the Government of India, for her contribution to Science and Technology.

In 2013, the Nobel prize in Physics was awarded for the theoretical postulate of the Higgs Boson, after the experimental discovery of the same at the LHC in 2012. This was considered being the last missing piece in the periodic table of the Standard Model (SM). In 2015 the Nobel prize in physics was awarded for the experimental discovery of Neutrino oscillations, which is one robust evidence for physics beyond the SM. In her speech, Prof Godbole will comment on the status of particle physics in light of these two and the exciting results on the measurements of the magnetic moment of the muon that have been announced in the previous weeks.

Prof Basudeb Dasgupta is a theoretical physicist at the Tata Institute of Fundamental Research (TIFR), Mumbai. His research interests include the interfaces of particle physics, astrophysics, and cosmology with an emphasis on dark matter and neutrino physics. Prof Dasgupta is also the Leader of the Astroparticle Physics Partner Group of Max-Planck Institute for Physics. Prof Dasgupta is a regular speaker at notable international workshops and conferences and different Science Outreach programmes.

When we look at the night sky, we see a variety of astronomical objects, such as planets, stars, gas clouds, still waiting to form stars to swathe of the emptiness. For a long time, it was believed to be all that the Universe is consists of. The following discoveries came as a huge surprise that all we see and know comprises only about 20% of the matters in the Universe. The remaining 80% is invisible and called “Dark Matter.” What is this dark matter? How do we know that is out there? What is it made of? How can we decipher the nature of this mysterious new ingredient of the cosmic soup? In this talk, Prof Basudeb Dasgupta will address and answer some of these questions.

Prof Bala Iyer is currently the Simons Visiting Professor at ICTS-TIFR Bangalore and CO-PI of the LIGO-India Scientific Collaboration. The alumnus of Bombay University previously worked at the Raman Research Institute, Bangalore, on Astrophysical applications of General Relativity, Perturbation methods and Black Holes. Since 1990, he is working on calculations of Gravitational waves from inspiraling binaries of neutron stars and black holes. He is a Fellow of the American Physical Society and International Society on General Relativity and Gravitation. He has been the Chair of the IndIGO Consortium since its inception in 2009. Prof Iyer was a Member of the Core Team for the LIGO-India Mega-Project Proposal. Further, he is the Chief Editor and Subject Editor of Gravitational Waves for the Online Journal `Living Reviews in Relativity’, published recently by Springer. Prof Bala Iyer has been a Visiting scientist in France, UK, Germany, USA. He has been involved in REAP (Research Education Advancement Programme) for B.Sc students at the Bangalore Planetarium for over two decades and Public outreach on General Relativity and Gravitational Waves.

The first detection of gravitational waves from a black hole binary in 2015 was a breakthrough, taking a century to realise, and made possible by the coming together of a remarkable experiment and an exquisite theory complemented by the best in sophisticated data analyses, state of the art computing and the transition to “big science”. 2017 brought the discovery of gravitational waves from a neutron star binary. The intense associated electromagnetic follow up of this event was spectacular. It heralds the launch of a new multi-messenger astronomy with the potential to impact astrophysics, cosmology and fundamental physics in the coming decades. Prof Bala Iyer will discuss the nature of gravitational wave and its impact on Physics.

The symposium aims to make students aware of the current status of some of the fascinating research topics of High Energy Physics. Students of basic sciences and engineering streams will be highly inspired and motivated after attending the symposium and listening to the talks. Join the captivating event on May 1, 2021, at 11 am.

Register: Click on this link to register for the Symposium

Asian Consortium on Computational Material Sciences-International Conference on Material Genome (ACCMS-ICMG) and Fracmeet Conference

The campus welcomes international and national researchers along with members of ACCMS and Fracmeet organizations to take part in two parallel international conferences hosted by SRM University AP, Andhra Pradesh on 5th-7th February, 2020. The 3-day conference was inaugurated by the guests, Prof. Yoshiyuki Kawazoe, Tohoku University, Japan, Dr. Purusattam Ray, IMSc, Chennai, Dr. D. Gunasekaran, Registrar, Dr. B. Sivakumar, Deputy Registrar, and Prof. Durga Rao, Dean-SLABS. ACCMS-ICMG 2020 Convener, Prof. Ranjit Thapa, Department of Physics, and Fracmeet 2020 Convener, Dr. Soumyajyoti Biswas, Department of Physics, initiated the launch of the abstract book by the guests and dignitaries to begin the conference.

Abstract Book launch by dignitaries.
Click here to view the Abstract Book
Dr. D. Gunasekaran, Registrar, addressing the audience on the inaugural event of ACCMS & Fracmeet conference.

Dr. Gunasekaran welcomed all the guests and addressed the audience. He introduced the university by recalling its infrastructural dominance, mentioning the eminent faculty, and discussing the collaborations with the University of California, Berkeley where students are sent for semester abroad programs. He also emphasized on the exposure offered to the students through international and national internships. “Our university encourages the young researchers through UROP where the students individually or in a group take up mini-projects under the guidance of our faculty. “Our faculty has published more than 120 journals in the last one year, along with 23 sponsored projects and 64 proposals that await funds from the agencies. SRM University AP, Andhra Pradesh is also collaborating with Indian Railways to build Hydrogen Trains, and Amara Raja Group on Energy Storage”, Dr. Gunasekaran pronounces. He also expresses his gratitude to the distinguished guests and assures to extend extensive support from the university’s end.

The Asian Consortium on Computational Materials Science (ACCMS) was set up in 2000 to promote research and development activities in computational materials in Asian countries. Prof. Yoshiyuki Kawazoe says “Computational materials was not a coined term in Japan when we started off this organization 20 years back. We merely had 7-8 participating nations who met on virtual platforms regularly or at conferences once in a while. In order to optimally utilize our resources and manpower, it is widely felt that we should have a ‘real’ organization to steer young researchers towards computational research. It is envisaged that the conduct of the International Conference on Material Genome at SRM University AP, Andhra Pradesh will lay the foundation for an active center of ACCMS on campus.”

Prof. Yoshiyuki Kawazoe and Registrar at the opening of the conference.
Prof. Yoshiyuki Kawazoe addressing the audience.

He further addresses that the purpose of ACCMS is to solve large probabilistic problems through Quantum Mechanics based calculations followed by Machine Learning (QM/ML). “We are aiming at developing language and characters prior to the western nations and secure a superior position for Asian countries”. Few themes to be covered in this chapter of ACCMS conference includes “Machine Learning for materials”, “High-throughput Computation”, “Polar Magnetic Materials”, “Thermoelectric Materials”, etc.

Fracmeet conferences are being organized for over a decade to focus on an aspect of Material Science – “Mechanical Properties of Complex Materials.” The multidisciplinary collaborative meetings of this organization welcome scholars from Chemistry, Physics, and Engineering domains, along with people from the industry. Prior to this, the annual conferences and meetings of Fracmeet were held at IMSc., Chennai, where Fracmeet was initiated. For the first time, SRM University AP, Andhra Pradesh, having exceptional infrastructure and facilities, is hosting this conference in collaboration with IMSc. This year, Fracmeet is aiming at discussing “Micromechanics of failure in disordered material” in this conference.

Dr. D. Gunasekaran, Registrar, Dr. B. Sivakumar, Deputy Registrar with the convener, Dr. Purusattam Ray.

The conferences will be held in parallel sessions for 3 days, from 5th to 7th February 2020, where delegates will be presenting their papers and discussing important issues to develop unique solutions for addressing challenges.

For more details, please visit: