24th National Conference on
Atomic and Molecular Physics
(NCAMP 2025) 8-11 January 2025

Organized by


in association with


About The Event

About The Event

The upcoming National Conference on Atomic and Molecular Physics (NCAMP 2025) is set to be hosted by the Indian Institute of Technology (Indian School of Mines) Dhanbad, India, in partnership with the Indian Society of Atomic and Molecular Physics (ISAMP).

The biennial conference NCAMP 2025, is one of the series of conferences organized by ISAMP, focusing on key areas within atomic and molecular physics. The conference aims to unite students, early-career researchers, and established scientists in the atomic, molecular, and optical physics community to showcase their research and stay abreast of emerging theoretical and experimental advancements. Serving as a central platform, the event facilitates the exchange of research ideas among attendees. It features plenary and invited talks by field experts, as well as oral and poster presentations by budding researchers and students. By fostering collaboration and dialogue through these sessions, the conference endeavors to cultivate a supportive environment for scientific interaction and knowledge sharing.

THEMES

  • Th1: Astrochemistry/Astrophysics
  • Th2: Biological sciences/Radiation physics
  • Th3: Cold atoms/Traps
  • Th4: Electron/Positron/ion/photon Collisions
  • Th5: Light Matter Interaction/Femtosecond Physics/Ultrafast Science
  • Th6: Plasma Physics
  • Th7: Quantum Computation/Quantum devices
  • Th8: Spectroscopy
  • Th9: Any other associated theme in AMOP


CONFERENCE FEE *

o Indian participants
ISAMP member : ₹ 5000
Non-ISAMP member : ₹ 6000
ISAMP student member : ₹ 3100
Non-ISAMP student member : ₹ 4000
o Foreign participants
Regular : $ 300
Student : $ 250
*Includes: Conference kit, Breakfast, Lunch, Dinner, Tea/Coffee and Banquet dinner.

Important Dates

  • Registration and abstract submission opens:
    • 16th September 2024
  • Extended deadline for Abstract submission:
    • 25th October 2024
  • Notification of acceptance:
    • 5th November 2024
  • Application for financial support:
    • 1st - 10th November 2024




Committees

Various adivsory and organizing committees

Advisory

  • Prof. K. N. Joshipura, SP University, Gujarat, India
  • Prof. Nigel Mason, University of Kent, UK
  • Prof. J. Tennyson, University College London, UK
  • Prof. E. Krishnakumar, RRI, India
  • Prof. Christian Hill, IAEA, Austria
  • Prof. G. Udayabhanu, IIT(ISM) Dhanbad, India
  • Prof. J. K. Pattanayak, IIT(ISM) Dhanbad, India
  • Prof. P. C. Deshmukh, IIT Tirupati, India
  • Prof. R. Srivastava, IIT Roorkee, India
  • Prof. Prasanta Panigrahi, SOA, India
  • Prof. P. C. Vinodkumar, SP University, Gujarat, India
  • Prof. K. P. Subramanian, PRL Ahmedabad, India

Scientific

  • Prof. Bhas Bapat, IISER Pune, India
  • Prof. Jyoti Rajput, DU, India
  • Prof. Aparna Shastri, BARC, India
  • Prof. Minaxi Vinodkumar, VP&RPTP College, India
  • Prof. Chetan Limbachiya, MS University, India
  • Prof. Bijaya Kumar Sahoo, PRL, India
  • Prof. Brajesh Kumar Mani, IITD, India
  • Prof. Aditya Kelkar, IITK, India
  • Prof. Dhananjay Nandi, IISER Kolkata, India
  • Prof. Sankar De, SINP, India
  • Prof. Sunil Kumar S, IISER Tirupati, India
  • Prof. Swetapuspa Soumyashree, PRL, India

Organising

  • Convener:
  • Co-Conveners:
    • Prof. Sarun P. M., IIT(ISM) Dhanbad
    • Prof. R.P. John, IIT(ISM) Dhanbad
    • Prof. Soumya Bagchi, IIT(ISM) Dhanbad
    • Prof. Tusharkanti Dey, IIT(ISM) Dhanbad
  • Organizing Members:
    • All faculty members - Dept of Physics, IIT(ISM)
    • Irabati Chakraborty, IIT(ISM) Dhanbad, India
    • Sapna Mahla, IIT(ISM) Dhanbad, India
    • Meenu Pandey, IIT(ISM) Dhanbad, India
    • Sudhanshu Arya, IIT(ISM) Dhanbad, India
    • Ashutosh Yadav, IIT(ISM) Dhanbad, India
    • Soumyo Kheto, IIT(ISM) Dhanbad, India




Posters and Talks

(Updated on 27/11/2024)

Posters

    • T1P_001: Adrija Bhowmick, Atomistic Simulations of Thermal Effects on Space Materials for Lunar Settlement.
    • T1P_002: Ganapathy Srinivasan, Ammonia - water interaction under astrochemical conditions.
    • T1P_003: Haritha P E, Theoretical Study of N2H+ Formation Reactions in Dense Molecular Clouds.
    • T1P_004: Pranaba K Nayak, Development of experimental setup and analytical methodologies to study cosmic γ-ray flux variations during total solar eclipses.
    • T1P_005: Rutisha Kotian, Electron-induced covalent association of N-heterocycles in the interstellar medium..
    • T1P_006: Saurav Dutta, Bimolecular photodissociation of interstellar 1-cyanonaphthalene and astrobiological phenanthridine.
    • T1P_007: Siddhartha Sankar Payra, Investigating Photo-Fragmentation and Ion-Neutral Reactions Involving Benzonitrile.
    • T1P_008: Vignesh N, Design of a Storage Ion Source and a Quadrupole Bender for Integration with an Ion Trap Facility.

    • T2P_009: Hemraj Bhai Patel, Biospeckle Analysis of Ipomoea batatas Leaves Under Varying Photosynthetically Active Radiation: A Non-invasive Approach to Studying Plant Physiology.
    • T2P_010: Rajendra Prasad Giri, Unveiling the structure and dynamics of nano-bio interfaces by X-ray methods.
    • T2P_011: Shinjini Pal, Geant4 Simulation on Gamma Detection with HPGe and Phoswich detector.

    • T3P_012: Ajay Nath, Ultradilute quantum droplets in quasi-periodic optical lattices.
    • T3P_013: Aniruddha Rana, Breakdown of Superfluidity of Quantum Liquids in Spin-Orbit coupled Bose-Einstein Condensation .
    • T3P_014: Pritam Bisi, Characterization of Atmospheric pressure ion funnel.
    • T3P_015: Roby Chacko, Do electron-rich molecules follow the Born-Oppenheimer principle? An experimental probing using trapped ions in an Electrostatic ion-beam trap (EIBT).
    • T3P_016: Sk Bubai Rahaman, Study of low-energy collisions between atoms and ions in a hybrid apparatus.
    • T3P_017: Soumik Bandyopadhyay, Cold atom simulation and thermalisation physics of holographic quantum matter.
    • T3P_018: Sugam Kumar, Delhi Penning Trap for the study of relativistic electron impact ionization cross-section in heavy atomic systems.
    • T3P_019: Sumaita Sultana, Josephson-type oscillations in spin-orbit coupled Bose-Einstein condensates with nonlinear optical lattices.

    • T4P_020: Aditya Yadav, Momentum Imaging Spectrometer to study Coulomb explosion of Molecules due to electron impact.
    • T4P_021: Aiswarya R., Mapping of atomic potential from scattering data.
    • T4P_022: Aloka Sahoo, Electron impact excitation of bismuth.
    • T4P_023: Ashutosh Yadav, Theoretical investigation of electron interactions with sulphuretted molecules..
    • T4P_024: Bidhan Mandal, State-selective differential and total cross section for electron transfer and excitation in ion atom collision.
    • T4P_025: Bini Thomas, Ionization study of cyanopolyynes HCnN (n = 1-17) by electron and positron impact.
    • T4P_026: C P Safvan, The versatility of “native frames”: application to dissociation dynamics of molecules.
    • T4P_027: Geetha D, Partial ionization cross section of C2F6, C4F10 and C4F7N.
    • T4P_028: Gorachand Das, Direct capture of a low-energy free-electron to aromatic molecules: Role of a delocalized σ* orbitals.
    • T4P_029: Harpreet Singh, Low-Velocity Collisions of H+3 ions with CO and He: Electron Capture and Ionization Dynamics.
    • T4P_030: Jasmeet Singh, Computational study of electron impact excitation of astronomically important molecular ions with large dipole moment using R-matrix method.
    • T4P_031: Kailash Dhakar, Electron impact single ionization (EISI) cross sections and differential cross sections (DCS) for the iso-nuclear sequence of krypton.
    • T4P_032: Kailash Verma, Experimental investigation of L-subshells x-ray production cross sections of thick Pb (Z=82) by impact of 15-30 keV electrons..
    • T4P_033: Kumar Ankit Upadhayay , Fragmentation dynamics of Chlorobenzene induced by 800nm femtosecond laser..
    • T4P_034: Manas Mondal, Differential cross sections for ionization of N2 molecule by electron impact.
    • T4P_035: Manauti B. Chaudhari, Electron Impact Ionization of Sulphur Species in the Atmosphere.
    • T4P_036: Manish Kumar Verma, Measurement of Charge state distribution of Fe^+q (q=3-9) with carbon target.
    • T4P_037: Manisha Samal, Complete three body dissociation dynamics of diiodoacetylene induced by ion collisions.
    • T4P_038: Meenu Pandey, Calculations of electron scattering cross sections from tungsten precursors used in FEBID.
    • T4P_039: Naheed Sheikh, Deciphering Ancient Pigment Production and their Phase Changes in Rock Art through Raman Spectroscopy.
    • T4P_040: Neeraj Kumar, Electron impact ionization cross sections and rate coefficients for single carbon freon molecules.
    • T4P_041: Neha, Laser-assisted (e,2e) study on$H_{2}O$ molecule with the plane wave and twisted electron beam.
    • T4P_042: Neha Barad, Calculation of positron scattering cross-sections with organic molecules.
    • T4P_043: Nilanjan Mukherjee, Electron collision studies with Beryllium and Boron species impurities in Fusion Edge Plasmas.
    • T4P_044: Niraliben Rajubhai Bhavsar, Isomeric effect in the electron impact scattering of C2H4O2 isomers.
    • T4P_045: Pinalben Mer, Electron and positron impact cross-sections of Be and BeH in fusion plasma.
    • T4P_046: Punita Verma, Quest for understanding the molecular orbital explanation of slow collisions.
    • T4P_047: Rajeev Kumar, Electron Induced Ionisation of BCl, BCl2, and BCl3 Molecules.
    • T4P_048: Raju Ghosh, The Rydberg and dissociative states of NH: An R-matrix study.
    • T4P_049: Ranojit Das, Ionization and electron capture studies in heavy ion-atom collision.
    • T4P_050: Raul Sheldon Pinto, Elastic scattering of twisted electrons by polyatomic molecules: All active electron multicentered approach.
    • T4P_051: Rohit Tyagi, Evidence of charge equilibrium process in Arq+(q = 3, 6)—Ar collision.
    • T4P_052: Shruti Sarswat, Electron and carbon nanotube scattering study.
    • T4P_053: Smruti Parikh, Electron collision study on Radiosensitizer- Fluoro substituted cytidine.
    • T4P_054: Snigdha Sharma, Low-energy electron scattering from pyran isomers.
    • T4P_055: Sonali Kamble , Electron induced crosslinking of polymeric systems .
    • T4P_056: Sudhanshu Arya, Electron Scattering from Oxygen- and Sulfur-Based Four-Atom Heterocycles and Isomers.
    • T4P_057: Suman Prajapati, Study of mean kinetic energy of recoil ions produced in electron-argon collisions.
    • T4P_058: Sunil Kumar Meena, Study of Electron and Positron Elastic Scattering Cross Sections of Astro Molecule H2S.
    • T4P_059: Suriyaprasanth Shanmugasundaram, Partial electron impact ionization cross sections using the generalized binary encounter Bethe model.
    • T4P_060: Vikas Tayal Tayal, Correlation effects on fine-structure energy levels, oscillator strengths and lifetimes in Chromium.
    • T4P_061: Vivek Kumar, Electron scattering from C5H6 molecule and from its isomers.

    • T5P_062: Aashna Anil Zade, Capturing strong correlation effects on a quantum annealer: calculation of avoided crossings in molecules using the quantum annealer eigensolver.
    • T5P_063: Ajay Tripathi, Understanding Electromagnetic Induced Resonances in Rb87 Vapor.
    • T5P_064: Aparajita Das, Influence of Microwave Field on Room-Temperature Faraday Rotation Magnetometer Using Atom-Cavity Coupled System.
    • T5P_065: Arup Chakraborty, Study of Nuclear Anapole Moment in $^{133}$Cs.
    • T5P_066: Ashish Sharma, Above-threshold ionization of argon atom in plasma.
    • T5P_067: Divya Bharti, Unraveling phase dynamics in three-sideband RABBITT measurements of atoms and molecules.
    • T5P_068: Ephraim Anto, Proton migration and association in ionized 1,2-Dichloroethylenes induced by femtosecond laser pulses.
    • T5P_069: Kuldeep Prajapat, Fano analysis of single-electron ICD resonances in plasmonic and non-plasmonic energy regions of Na20@C240.
    • T5P_070: Monali Kawade, Local dynamics drives the C-CX3 (X= H and F) bond photodissociation in acetylacetone.
    • T5P_071: Nawaz Sarif Mallick, Generation and Control of Structured Light with Vortex Beams.
    • T5P_072: Nihar Ranjan Behera, First Experimental Observation of AlF- anion: Combined Experimental and Theoretical Study.
    • T5P_073: Pooja Kumari, Double Hanle resonance dependence on light polarization angle and transverse magnetic field direction.
    • T5P_074: Pratyay Mukherjee, Field-derivative Torque Induced Magnetization Reversal in Antiferromagnets and Ferrimagnets.
    • T5P_075: Priyabrata Seth, Correlated vortex generation in coherent medium.
    • T5P_076: Rabi Das, High-order Harmonic Generation in Atomic Hydrogen Driven by Intense Impulse Laser Field .
    • T5P_077: Rakiba Rahaman, Some studies on surface plasmon polaritons (SPPs) in electromagnetically induced transparency (EIT) medium.
    • T5P_078: Renjith Kumar R, Study of re-deposition during the rear ablation of a thin-film using ns laser pulse.
    • T5P_079: Samiksha, Electron-Ion Coincidence Studies of Laser-Induced Ionization of Oxygen Molecule.
    • T5P_080: Subhadip Ghosh, Chiral Inertial Magnons in Ferromagnetic Heterostructures.
    • T5P_081: Subhadip Santra, Relativistic theory for orbital and spin angular momentum dynamics in magnetic solids..
    • T5P_082: Uma N N, Effect of structural modification on biomolecular photostability.
    • T5P_083: Vinitha Nimma, Effect of Two-Color Fields on Ring-Breakup Process of Chlorobenzene.

    • T6P_084: Anamika N K, Calculation of swarm parameters using the fine-structure-resolved electron impact collision cross sections of gallium.
    • T6P_085: Ankit Kumar, Spectroscopic measurement of plasma rotation and ion/neutral temperature in ADITYA-U tokamak.
    • T6P_086: Ayushi Agrawal, Calculation of the electron impact excitation cross-sections of Ba and its application to the diagnostics of laser produced Ba-plasma .
    • T6P_087: Kunal Singha, Non-Destructive Plasma Trajectory Mapping with Capacitive Probe Arrays for Nonneutral Plasma Diagnostics.
    • T6P_088: Nitish Ghosh, Collision-Radiative Modeling of Al II Plasma: A Detailed Analysis of Spatio-Temporal Evolution.
    • T6P_089: Prashant Kumar, Effect of collection geometry on signal enhancement in NELIBS.
    • T6P_090: Santanu Mondal, Structural analysis of symmetric three-body molecular ions within screened Coulomb interaction.
    • T6P_091: Swetapuspa Soumyashree, Spectroscopic study of signal enhancement in laser produced plasma using nanoparticles under different ambient.
    • T6P_092: Vaibhav Chauhan, Ammonia Dehydrogenation on Cationic Cobalt Clusters .
    • T6P_093: Varsha S, Validation of spectroscopic diagnostics for RF plasma system .

    • T7P_094: Athira K M, Dynamics of the nonclassical area in a Kerr Medium: Identification of full and fractional revivals.
    • T7P_095: Malay Kumar Bandyopadhyay, Thermo-electric performance, characterization, and tunability of an Aharanov-Bohm Heat Engine in the nonlinear regime.
    • T7P_096: Niladri Ghorui, Quantum Interference Signal by Scanning Longitudinal Magnetic Field.
    • T7P_097: Peniel Tsemo , Addressing a key caveat in the HHL quantum algorithm: application to molecular property calculations.
    • T7P_098: Rohith M, Nonclassicality dynamics of a driven quantum van der Pol oscillator.
    • T7P_099: Shruti Prakashan, Ergodicity breaking transition in bosonic system.

    • T8P_100: Amit Yadav, Precursor concentration dependent optical properties of electropolymerized PANI-ZnO nanocomposite thin films.
    • T8P_101: Asim Kumar Das, Theoretical study of the dissociative photoionization channels of alkyl carbonate molecules and comparison with experiments.
    • T8P_102: Choudhary Vikar Ahmad, Detection of surface magnetism with hollow atoms using high-resolution X-ray spectroscopy.
    • T8P_103: Cinumon K. V., Effect of the sensitised shell on the photoluminescence and photoacoustic properties of Er3+/Yb3+:NaGdF₄ nanocrystals.
    • T8P_104: Dipexa Modi, Investigation of neutral particle dynamics during fuel gas-puffs by radial profile measurements of Hα emission in edge region of ADITYA-U tokamak .
    • T8P_105: Garima Gohar, Anionic Dopant Dependent Structural and Spectroscopic Properties of Electrodeposited Polypyrrole Thin Flims.
    • T8P_106: Geethika B R, Characteristics of Polarized Emission From Laser Produced Plasma.
    • T8P_107: Janmejay Mahto, Beam-foil X- Ray Spectroscopy of highly charged 56Fe Ions at Various Beam Energies Near by Nuclear Binding Energies.
    • T8P_108: Kiran Kumar Gorai, VUV photoabsorption spectroscopy of 1,2-dibromobenzene.
    • T8P_109: Narendra Kumar, Spectroscopic properties of plasma-embedded He-like C V in external electric field.
    • T8P_110: Neha Sharma, Ground and Electronic excited states of Trimethylamine &Trimethylamine cation: Theoretical aspect.
    • T8P_111: Pratik Choudhuri, Plasmon Resonance Enhanced Luminescence of Metal Doped Electropolymerized Polypyrrole Thin Films.
    • T8P_112: Priyanka Sen, Influence of Polaron Doping on Luminescence of Electropolymerized PPy-PMMA Blend Thin Films for PLED Applications.
    • T8P_113: Ritu Dey, Development of a database for oxygen and carbon in ADITYA-U tokamak plasmas .
    • T8P_114: Salam Jimkeli Singh, Enhancing Optical Properties through Synergetic Interactions in gC3N4-CuO Nanocomposite .
    • T8P_115: Shivam Sinha, Absorption spectroscopy-based estimation of atomic number density MEMS alkali vapor cells.
    • T8P_116: Shivankar, Effect of magnetic field on atomic structure and radiative properties of Cr XXI ion in dense plasma.
    • T8P_117: Snehasis Sardar, Effect of acid concentration on luminescence of electropolymerized PANI-ZnO nanocomposite thin films.
    • T8P_118: Subhajit Sarkar, Inverse spinel Fe-NiCo2O4/NiO nanocomposite supported on defect-rich P-rGO sheets for enhanced OER activity.
    • T8P_119: Tapas Kumar Ghosh, Group IV halidies: Molecular constants, energetics and bond dissociation energies of MX, MX±, MX2 and MX2± (M = Ge, Pb; X= F, Cl, Br and I).
    • T8P_120: Vandana Rawat, Theoretical studies on electronic excited states of propionitrile.
    • T8P_121: Vijay Dharmarpu, Probing Glycoprotein-Protein Interactions with Vibrational Techniques.
    • T8P_122: Zaid Mustafa, Fourier Transform Spectroscopy of Si I-II.

    • T9P_123: Ankush Thakur, Relativistic and correlation effects on the valence molecular properties of singly charged aluminum monohalides.
    • T9P_124: Debodyuti Kar, Harnessing Deep Neural Network (DNN) for Predicting Binding Energy per Nucleon Across the Nuclear Chart.
    • T9P_125: Jyoti, Nb$^{4+}$ ion as a potential candidate for THz atomic clocks.
    • T9P_126: Koustav Das Chakladar, Quantum-information-theoretic measures of Li atom under pressure confinement.
    • T9P_127: Prashant Singh Lohiya, Tailoring the optoelectronic properties of Cesium-Copper based single and double perovskites for enhanced performance.
    • T9P_128: Rajesh Kumar Yadav, Applications of Newly Discovered Orthogonal Polynomials in Quantum Theory.
    • T9P_129: Romario Mondal, Frustrated magnetism in Sr 3 (Ni/Cu)Ta_2O_9.
    • T9P_130: Sudeshna Ghosh, Calculation of electronic, structural, and vibrational properties of silicon halides using a density-functional method.
    • T9P_131: Tuhin Mandal, Biocompatible Fluorescent Graphene Oxide Quantum Dots for Imaging of Drosophila Melanogaster.

    • T1O_001: Suraj Pandey, Fock-space perturbed relativistic coupled-cluster calculations of electric dipole polarizability and NSD-PNC in Cs.
    • T1O_002: Wafikul Khan, Formation of water ice at 200 K- result of hydrogen bonding between diols and water.
    • T4O_003: Akash Srivastav, Role of the projectile charge state and underlying electron-capture processes in dissociation dynamics of CO2^{3+} created under slow ion impact.
    • T4O_004: Jibak Mukherjee, Study of state selective electron capture by same velocity H^+ and H_2^+ using Cold Target Recoil Ion Momentum Spectroscopy.
    • T4O_005: Sagar Vadhel, Low-Energy Electron Impact Dynamics on Astrochemically Relevant Molecules.
    • T4O_006: Sandeep Bajrangi Bari, Fragmentation dynamics of SO_2^{2+} in collisions with energetic protons.
    • T4O_007: Soumya Ghosh, Dissociative Electron Attachment to CH\(_{2}\)F\(_{2}\) probed by Velocity Map Imaging.
    • T4O_008: Vishnu P, Combined Electron - Ion Spectrometers for state specific study of dissociation dynamics of molecular ion.
    • T4O_009: Yurekha S.P, Low energy electron interaction and dissociative ionization of pyridazine.
    • T5O_010: Abheek Roy, Unveiling solvation driven fluorescence: Decoding fluorescein dianion’s emission through experiment and theory.
    • T7O_011: Sumit Ghosh, Optical Fiber-based Distributed Acoustic Sensing.
    • T8O_012: Samim Akhtar, Influence of the orbital angular momentum of light on the atomic coherent signals in Rubidium vapor cell.
    • T8O_013: Varun Deshpande, On the trend of unfavorable O2 molecule absorbed structures of small yttrium oxide clusters.
    • T9O_014: Palki Gakkhar, PRCC Calculations of Electric Dipole Polarizability in Ytterbium and Superheavy Nobelium.

Talks

    • T4I_012: Aditya H. Kelkar, Ion-atom/molecule collision experiments at the 1.7MV tandetron accelerator facility, IIT Kanpur - An overview.
    • T8I_007: Aparna Shastri, Spectroscopy and Dynamics of Molecules using EUV synchrotron radiation.
    • T1I_009: Bhalamurugan Sivaraman, A Simple Route to PAH formation in ISM: Is it bottom-up or top-down?.
    • T1I_003: Bhas Bapat, Charged Particle Spectrometry at the Earth–Sun Lagrange Point.
    • T7I_005: Bijaya K. Sahoo, Testing Atomic Many-body Methods through High-precision Calculations.
    • T7I_010: Brajesh Kumar Mani, Simulation Experiments for Many-Body Systems.
    • T4I_008: Chetan limbachiya, Molecular processes driven by electron and positron interactions.
    • T4I_011: Deepankar Mishra, Electron capture induced processes in atoms, small molecules and dimers in collisions with highly charged ions.
    • T7I_014: Dilip Angom, Percolation and quench dynamics of quantum phases.
    • T4I_004: Jyoti Rajput, Ion-impact ionization vs photo-ionization of methane.
    • T9K_004: Prof. Andrey Solov’yov, Multiscale computational modelling of condensed matter systems exposed to radiation: case studies with relativistic molecular dynamics .
    • T1K_002: Prof. Jonathan Tennyson, ExoMol: molecular line lists and for exoplanet and other hot atmospheres.
    • T5K_003: Prof. M Krishnamurthy, Compact laser based particle accelerators .
    • T4K_001: Prof. Nigel Mason, TBA .
    • IYQ_001: Prof. P. C. Deshmukh, Hundred year of the Quantum.
    • IYQ_002: Prof. PK Mohanty , Determinism vs reality -- a quantum jump.
    • T9I_015: Rakesh S. Moirangthem, Optical spectroscopy employing plasmonic and photonic devices for molecular detection.
    • T4I_006: S Sunil Kumar, Suppression of collision-induced dissociation of molecular ions in a supersonically expanding gas.
    • T7I_002: Saikat Ghosh, Quantum enhanced sensing of small fields with cold atoms.
    • T4I_013: Sankar De, Four body dissociation pathways of diiodoacetylene induced by ion collisions.
    • T4I_001: Vaibhav Prabhudesai, Unexplored aspects of electron molecule collision.

    • T9Y_006: Achintya Kumar Dutta, Frozen Natural Spinors: An Efficient Framework for Cost Reduction in Relativistic Coupled Cluster Method.
    • T9Y_007: Dr. Arnab Khan, Revealing a Dynamic Isotope Effect in Nucleophilic Substitution Reaction.
    • T5Y_003: Dr. Diksha Garg, Ultrafast dynamics of fluorene initiated by highly intense laser fields.
    • T3Y_001: Dr. Nabanita Deb, Cold Chemistry: Probing quantum effects in the investigation of atom – molecule interactions at cold conditions.
    • TY_002: Dr. Prashant Singh, TBA .
    • T4Y_004: Jobin Jose, Elucidating the Real and Momentum Space Electron Diffraction pattern in electron scattering .
    • T7Y_005: Srinivasa Prasannaa V, Quantum algorithms for atomic and molecular physics calculations .

    • T5L_005: Anil Kumar Chaudhary, Study of Thermal Decomposition and Low level Detection of Explosives from Defense Test Range Soil Samples Using Photoacoustic Analyzer.
    • T4L_004: Dr. Paresh Modak, Asymmetry parameter (β2) as a marker of bond dissociation for CH3F.
    • T4L_003: Dr. Suvam Singh, Dielectronic recombination study of Xe^{3+}.
    • T6L_006: Prof. Amitava Adak, Intense femtosecond laser-driven dense plasma dynamics.
    • T4L_001: Prof. Dhanoj Gupta, Study of ion dynamics in an electrostatic ion beam trap.
    • T6L_002: Prof. Kalyan Chakrabarti, Electron collision calculations on molecules in fusion edge plasmas and injected impurities in fusion devices.

Venue

How to reach?

By Air

Closest airports to Dhanbad:

By Rail

Closest railway stations to Dhanbad:

  • Dhanbad (DHN)
    • 3 kms; about 10 mins by taxi.
    • Connects: Kolkata, Delhi, Mumbai, Chennai,...
  • Gomoh (GMO)
    • 37 kms; about 30 mins by taxi.
    • Connects: Delhi, Bhubaneswar, Kolkata, etc.
  • Mahuda (MHQ)
    • 22 kms; about 25 mins by taxi.
    • Connects: Delhi, Bhubaneswar, Kharagpur
  • Asansol (ASN)
    • 63 kms; about 1 hr by taxi.
    • Connects: Delhi, Kolkata, Patna, etc.

By Road

Connects all major cities around Dhanbad

  • Ranchi
  • Kolkata
  • Patna
  • Durgapur
  • Jamshedpur
  • Kharagpur

IIT(ISM) Dhanbad, India.

Situated in the heart of the country’s prime coking coal belt, 260 kms from Kolkata with a campus spread over an area of 393 acres, the fully residential IIT(ISM) has all the facilities of world class academic institute. What started as an institution to impart mining education has graduated into a full-fledged technical institution of international acclaim offering a host of programmes like B. Tech., M. Tech., M. Sc., M.Sc. Tech., M.A., MBA and Ph.D. by 17 departments

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Accommodation

Guest Houses, Hostels and nearby Hotels

Tourist Attractions

Parasnath Hills

Parasnath Hills

Parasnath Hills are a range of hills located in Giridih district of Jharkhand. It is one of the most important pilgrimage centre for Jains. There are a number of temples on the hills, some of them are believed to be more than 2,000 years old. Parasnath Hill is 81 km away from IIT (ISM) Dhanbad. By car one can reach in about 1 hr and 50 min.

trikuta-parvat

Deoghar

Deoghar is a famous religious tourist spot in Jharkhand. It is primarily known for the Baidyanath Temple, one of the 12 Jyotirlingas of Shiva. Deoghar is 120 km away from IIT (ISM) Dhanbad. By car one can reach in 2 hr and 40 min.

patratu

Ranchi

Ranchi is the capital city of Jharkhand. A number of tourist attraction are there in Ranchi city and surrounding areas. Ranchi is about 152 km away from IIT (ISM) Dhanbad. By car one can reach in 4 hr and 15 min. One can also travel by Train.

Bodhi Tree

Bodh Gaya

Bodh Gaya is a famous religious site associated with the Mahabodhi Temple (a UNESCO World Heritage Site), situated in the Gaya district of Bihar. Bodh Gaya is 207 km away from IIT (ISM) Dhanbad. By car one can reach in about 4 hr. One can also travel by Train.

Shantiniketan

Shantiniketan

Shantiniketan was declared as a UNESCO World Heritage Site in 2023. Established in 1901 by the renowned poet and philosopher Rabindranath Tagore and became a great center of art and culture. It is is 156 km away from Dhanbad. By car one can reach in about 3 hr and 15 min.

Purulia

Purulia

Many tourists visit Purulia to witness the charm of the natural scenery. Purulia is home to traditional folk dance and culture like Chhou Dance and Jhumur Song. Purulia (town) is 63 km away from IIT (ISM) Dhanbad. By car one can reach in about 2 hr and 10 min.




Awards & Prizes

Best Poster Awards

Six awards of ₹ 10,000.00 each.

Best Oral Presentation Awards

Three awards of ₹ 10,000.00 each. This award is sponsored by: An ISAMP Life-member.

Awards by ISAMP

The following awards will be presented by ISAMP during the NCAMP:

Contact Us

For further information please contact the organizers by email or phone as given below.

Address

Department of Physics, Indian Institute of Technology (ISM) Dhanbad, Jharkhand - 826004, India

Phone Number

+91 326 223 5406