Track Categories
The track category is the heading under which your abstract will be reviewed and later published in the conference printed matters if accepted. During the submission process, you will be asked to select one track category for your abstract.
The first is the special theory of relativity, which basically deals with whether rest and motion are relative or absolute and the consequences of Einstein's conjecture that they are relative. The second is the general theory of relativity, which mainly accelerates particles, mainly due to gravity. , and acts as a radical revision of Newton's theory, predicting significant new results for fast-moving or very massive bodies. The General Theory of Relativity correctly replicates all valid predictions of Newton's theory but extends its understanding of some of the basic principles. Newton's physics had previously assumed that gravity operated in empty space, but the theory had no explanatory power for how the distance and mass of a given object could be transmitted through space. General relativity shapes this paradox because it shows that objects continue to move in a straight line through time, but we observe motion as acceleration due to the curved nature of space.
Nanosciences and nanotechnologies are the disciplines that study systems and manipulate matter at the atomic, molecular and supermolecular scale (the nanometric scale). At such a length scale, the effects of quantum mechanics and surface limits become relative, giving properties to materials not observed at larger macroscopic scales.
Field of physics that studies multibody systems in the concentrated phase of matter, namely liquids (including quantum liquids) and solids (including crystallography and magnetism). The methods used include experiments, theories and numerical simulations. Concentrated physics applies the ideas of quantum mechanics, quantum field theory, and statistical engineering and overlaps with materials science, nanotechnology, and chemistry.
Liquid dynamics is the study of the movement of liquids, gases, and creatures. Flow depends on intrinsic properties of the material itself, such as compressibility, viscosity, and density. Examples of systems are fluid flowing in a conduit or capillary, air moving in a plane of the plane, and the movement of plasma in a magnetic field of stars
Quantum optics is the study of how individual light puppets, called photons, interact with atoms and molecules. This includes studying the properties of photon particles. Photons have been used to test many anti-intuitive predictions of quantum mechanics, such as entanglement and teleportation, and are a useful resource for quantum information processing.
Biophysics is the study of natural phenomena and physical processes in living things, at scales that span molecules, cells, tissues and organisms. Biophysics uses the principles and methods of physics to understand biological systems. It is an interdisciplinary science, closely linked to quantitative and systems biology.
Medical physics is a very established field where progress is usually technical. However, physicists from other areas of physics can make unexpected contributions. New ideas, technology transfer and interdisciplinary cooperation can lead to exciting developments. the application of physical concepts, theories and methods to medicine or health care. This collection brings together various news, reviews and opinion pieces highlighting and discussing these trends.
Plasma physics is the study of a state of matter involving charged particles. Creatures are usually created by heating a gas until the electrons are disconnected from their parent atom or molecule. This so-called ionization can also be achieved using high power laser light or microwaves. Creatures are found naturally in the stars and in space.
Spintronics is the use of a fundamental property of particles known as spin for information processing. In many ways, spintronics is analogous to electronics, which instead uses the electric charge of an electron. Transporting information about an electron's charge and spin potentially offers devices with a greater diversity of functionality. Spintronic devices promise to solve major problems with electronic computers today, as computers use huge amounts of electricity and generate heat that requires even more energy for cooling. In contrast, spintronic devices generate little heat and consume relatively little electricity. Spintronic computers would not need power to keep data in memory.
The interdisciplinary field of materials science, commonly referred to as materials science and engineering, involves the discovery and design of new materials important to solids. The well-informed origins of materials science were not clarified until researchers began to use analytical thinking from chemistry, physics, and engineering to understand ancient phenomenological observations in metallurgy as well as in mineralogy. . Materials science is a syncretic ceramic discipline, hybrid metallurgy, solid-state physics and chemistry. It is the first example of a new academic discipline evolving by fusion rather than fission.
The interaction of the supersonic solar wind with the Earth's dipole magnetic field is surprisingly complicated. About 5 orders of magnitude of spatial scales are involved in the overall behavior of the magneto spheric system, and time scales ranging from seconds for auroral pulsations to minutes for the response of the global magnetosphere to solar wind pressure changes to several days for the intensification of the electron radiation belt to years for the decay of relativistic electrons. The physical length scales of the plasma vary from a Debye length of 0.4 cm in the ionosphere to ion gyro radii of 1000 km in the magnetotail and in the ion radiation belt; the plasma-physical timescales associated with the wave substructure can also be very short
Molecular imaging involves a variety of imaging techniques based on the use of exogenously added probes to target and detect desired cellular or molecular processes in a living organism.
Nuclear astrophysics is the study of nuclear-level processes that occur naturally in space. This includes understanding the chain of fusion events, or nucleo synthesis, that occurs in stars, and how this can be detected remotely by measuring the radiation produced by these processes.
This will serve as an introduction to the field , especially from a practical and mechanical point of view. We will focus on anthropogenic satellites and the dynamics of satellite orbit around the earth, moon and other "local" objects. We will look at practical applications, such as Earth orbits, lunar and interplanetary orbits, ballistic missiles, and interstellar escape routes.
Computational physics can be broadly defined as "the science of using computers to solve physical problems and further physical research." Large scale studies of quantum mechanics in nuclear, atomic, molecular and concentrated physics.
Control theory, a field of applied mathematics related to the control of certain physical processes and systems. Although the theory of control has deep connections with classical areas of mathematics, such as the calculation of variants and the theory of differential equations.
Electronics that work with digital signals. In contrast, analog circuits deal with analog signals whose performance depends more on manufacturing tolerance, signal attenuation, and noise. Numerical techniques are useful because it is much easier to get an electronic device to navigate through one of many known situations than to accurately represent a continuous range of values
Engineering physics is the study of the combined fields of physics, mathematics, and engineering, in computer science, nuclear, electrical, electronics, materials, or engineering. Emphasizing the scientific method as a rigorous foundation, he seeks ways to implement, design, and develop new solutions in engineering. Most programs integrate applied physics with a specialized engineering major, such as mechanical, computer, or aerospace engineering.
Geophysics is, as a rule, a study of the physics of planetary bodies and atmospheres, including the flow of energy through these systems. The term can also be used more narrowly to describe the study and characterization of the Earth's interior using non-invasive methods such as seismic images.
Applied physics is the study of physics for a practical purpose, as opposed to physics, the sole purpose of which is a better fundamental understanding. This includes technological developments such as the development of electronics, photonics and device physics or the enhancement of practical research, such as experimental nuclear physics and experimental particle physics.
Laser material processing uses high beam light in the fabrication of materials. This may include cutting, etching, drilling, or welding metals. It may also include laser cleaning materials. The health and safety issues associated with the use of these techniques are an important element. Total internal reflection prevents light inserted into one end of the fibre from escaping through the sides. Transferring information optically in this way enables much higher transmission rates than using an electrical signal.
The development of suitable mathematical methods for the design application of physical theories is physicists use Mathematical Physics. Quantum mechanics, Quantum field theory, Quantum statistical mechanics, and Quantum physics are some areas of physics where mathematical solutions are applied over the years. With new drafted tracks and sub-track are to be discussed in the panel with the eminent professional in Poisson-Nijenhuis Groupoids. This session in Applied Physics Congress will create a chance to visualize the unimaginable concepts and theorem which provides solutions for future technologies.