We request you to submit your abstract of your talk/presentation/symposium according to the session of your interest.


Session 1 - Classical & Modern Physics

Classical physics is generally concerned with matter and energy on the normal scale of observation, while much of modern physics is concerned with the behavior of matter and energy under extreme conditions or on the very large or very small scale. Classical physical concepts are often used when modern theories are unnecessarily complex for a particular situation. Modern physics also involves theoretical and extreme conditions represented by quantum effects and relativity typically involving distances comparable to atoms.

Session 2 - Nanotechnology

Nanotechnology is science, engineering, and technology conducted at the nanoscale, which is about 1 to 100 nanometers. Nanoscience and nanotechnology are the study and application of extremely small things and can be used across all the other science fields, such as chemistry, biology, physics, materials science, and engineering.

Session 3 - Atomic & Molecular Physics

Atomic physics, the scientific study of the structure of the atom, its energy states, and its interactions with other particles and with electric and magnetic fields. Atomic physics has proved to be a spectacularly successful application of quantum mechanics, which is one of the cornerstones of modern physics. Molecular physics is the study of the physical properties of molecules, the chemical bonds between atoms as well as the molecular dynamics. Its most important experimental techniques are the various types of spectroscopy; scattering is also used. The field is closely related to atomic physics and overlaps greatly with theoretical chemistry, physical chemistry and chemical physics

Session 4 - Acoustics

Acoustics is defined as the science that deals with the production, control, transmission, reception, and effects of sound (as defined by Merriam-Webster). Many people mistakenly think that acoustics is strictly musical or architectural in nature. While acoustics does include the study of musical instruments and architectural spaces, it also covers a vast range of topics, including: noise control, SONAR for submarine navigation, ultrasounds for medical imaging, thermo acoustic refrigeration, seismology, bioacoustics, and electroacoustic communication

Session 5 - Applied mechanics

Applied mechanics is a branch of the physical sciences and the practical application of mechanics. Applied mechanics describes the response of bodies (solids and fluids) or systems of bodies to external forces. Some examples of mechanical systems include the flow of a liquid under pressure, the fracture of a solid from an applied force, or the vibration of an ear in response to sound. A practitioner of the discipline is known as a mechanic.

Session 6 - Optics

A branch of physics that studies electromagnetic radiation (for example, light and infrared radiation), its interactions with matter, and instruments used to gather information due to these interactions. Optics includes the study of sight. Optics is the science of light.

Session 7 - Quantum Mechanics

Quantum mechanics, science dealing with the behaviour of matter and light on the atomic and subatomic scale. It attempts to describe and account for the properties of molecules and atoms and their constituents—electrons, protons, neutrons, and other more esoteric particles such as quarks and gluons. These properties include the interactions of the particles with one another and with electromagnetic radiation (i.e., light, X-rays, and gamma rays).

Session 8 - Condensed matter physics

Condensed-matter physics is the study of substances in their solid state. This includes the investigation of both crystalline solids in which the atoms are positioned on a repeating three-dimensional lattice, such as diamond, and amorphous materials in which atomic position is more irregular, like in glass.

Session 9 - Nuclear and Particle physics

Nuclear physics is the study of atomic nuclei and their constituents, namely proton and neutron and the forces that hold them together over a distance of a few femtometers across the nucleus. & Particle physics is a search for the most primitive and irreducibly smallest detectable forms of matter and aims to find the basic laws by which they interact to make the physical world look and behave as it does.

Session 10 - Electromagnetism

Electromagnetism is a branch of Physics, deals with the electromagnetic force that occurs between electrically charged particles. The electromagnetic force is one of the four fundamental forces and exhibits electromagnetic fields such as magnetic fields, electric fields, and light. It is the basic reason electrons bound to the nucleus and responsible for the complete structure of the nucleus.

Session 11 - Astrophysics

Astrophysics is a branch of space science that applies the laws of physics and chemistry to explain the birth, life and death of stars, planets, galaxies, nebulae and other objects in the universe. It has two sibling sciences, astronomy and cosmology. It is a very broad subject and applies concepts and methods from different disciplines of Physics.

Session 12 - Applied Physics

Applied physics is the study of physics for a practical purpose, as opposed to physics motived solely for an improved fundamental understanding. This includes technological advances such as the development of electronics, photonics and device physics, or improving practical investigations, such as experimental nuclear physics and experimental particle physics.

Session 13 - Experimental Physics

Experimental physics is concerned with the observation of physical phenomena and experiments. The mechanisms involved differ from one discipline to the other, from basic experiments and observations like Cavendish experiments to more difficult and twisted ones like Large Hadron Collider. Experimental Physics regroups all the branches of Physics that are associated with conceptualization, data acquisition and data acquisition methods. It is in contradictory with the Theoretical Physics which involves predicting and explaining the physical behavior of the nature.

Session 14 - Gravitational Physics and Plasma Physics

Gravitational physics involves exploring the implications of the general theory of relativity, in which gravitation is a consequence of the curvature of space and time. This curvature thus controls the motion of inertial objects. Modern research in gravitational physics includes studying applications of numerical relativity, black hole dynamics, sources of gravitational radiation, critical phenomena in gravitational collapse, the initial value problem of general relativity, and relativistic astrophysics. Plasma physics is the study of a state of matter comprising charged particles. This so-called ionization can also be achieved using high-power laser light or microwaves. Plasmas are found naturally in stars and in space.

Session 15 - Geophysics

Geophysics, major branch of the Earth science that applies the principles and methods of physics to the study of the Earth. It deals with a wide array of geologic phenomena, including the temperature distribution of the Earth’s interior; the source, configuration, and variations of the geomagnetic field; and the large-scale features of the terrestrial crust, such as rifts, continental sutures, and mid-oceanic ridges.

Session 16 - Thermodynamics & Fluid Mechanics

Thermodynamics is the branch of physics that deals with the relationships between heat and other forms of energy. It describes how thermal energy is converted to and from other forms of energy and how it affects matter. Fluid mechanics is the branch of physics that deals with the mechanics of fluids (liquids, gases, and plasmas) and the forces on them. Fluid mechanics has a wide range of applications in mechanical and chemical engineering, in biological systems, and in astrophysics.

Session 17 - Biophysics & Medical physics

Biophysics is the field that applies the theories and methods of physics to understand how biological systems work. Biophysicists work to develop methods to overcome disease, eradicate global hunger, produce renewable energy sources, design cutting-edge technologies, and solve countless scientific mysteries. Medical Physics is a branch of Applied Physics that uses physics principles, methods and techniques in practice and research for the prevention, diagnosis and treatment of human diseases with a specific goal of improving human health and well-being. It is also closely linked to neighboring sciences such as Biophysics, Biological Physics, and Health Physics

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