Sessions and Tracks
Session 01: Materials Science and Engineering
The interdisciplinary discipline of substances technology, additionally typically termed substances technology and engineering, covers the layout and discovery of latest substances, especially solids. The highbrow origins of substances technology stem from the Enlightenment, whilst researchers commenced to apply analytical wondering from chemistry, physics, and engineering to apprehend ancient, phenomenological observations in metallurgy and mineralogy. Materials technology nonetheless contains factors of physics, chemistry, and engineering. As such, the sphere turned into lengthy taken into consideration through instructional establishments as a sub-discipline of those associated fields. Beginning within side the 1940s, substances technology commenced to be extra extensively diagnosed as a particular and wonderful discipline of technology and engineering, and main technical universities round the arena created committed colleges for its study.
Session 02: Superconductivity and Super fluidity
Superconductivity is a phenomenon of precisely Zero electric resistance and expulsion of magnetic flux fields happening in positive materials, known as superconductors, whilst cooled under a selected important temperature. Superfluidity is the function belongings of a fluid with 0 viscosity which consequently flows with out lack of kinetic energy. When moved, a superfluid paperwork mobile vortices that maintain to rotate indefinitely.
Session 03: Advanced Materials and Functional Devices
The Advanced Materials Industry consists of a complete cycle shape substances extraction and number one production. The improvement of superior substances is related to the technology of latest know-how and intellectual property, a mixture of the affiliation with superior substances .The Advanced substances directorate has withinside the beyond economic yr advanced a baseline examine on the arena in south Africa.
Session 04: Bio-Physics and New Dimension in Technology
Biophysics is an interdisciplinary technology that applies the strategies of physics to have a look at organic systems. Biophysics covers all scales of organic organization. Biophysical studies stocks extensive overlap with biochemistry, physicalchemistry, nanotechnology, bioengineering, computational biology and biomechanics.
Session 05: Organic Electronics
Organic Electronics is a area of substances technology regarding the design, characterization, and alertness of natural polymers that display perfect digital residences inclusive of conductivity. Unlike traditional inorganic conductors and semiconductors, natural digital substances are built polymers the usage of artificial techniques evolved withinside the polymer chemistry.
Session 06: Materials physics
Material Physics is the used to explain the bodily homes of substances. It is a synthesis of bodily sciences along with strong mechanics, strong kingdom physics, and substances science. Materials physics is taken into consideration a subset of condensed count physics and applies essential condensed count ideas to complicated multiphase media, consisting of substances of technological interest.
Session 07: Nano Materials and Nano-Technology
Nano Materials is a cloth having debris or factors of nanoscale dimensions, or one this is produced through nanotechnology. Nanotechnology is impact of count on an atomic and molecular scale. The earliest enormous description of nanotechnology noted the unique technological purpose of precisely manipulating atoms and molecules for fabrication of macroscale products, additionally now known as molecular nanotechnology.
Session 08: Condensed matter physics
Condensed Matter Physicists take a look at how remember arises from a big quantity of interacting electrons and atoms, and what bodily homes it has due to those interactions. The subject of condensed remember physics explores the macroscopic and microscopic homes of remember. The predominant interest is waged to physics of solid, liquid and, section equilibria, amorphous structures and section transitions, electric, magnetic, thermal, structural and optical homes of condensed Matter Physics.
Session 09: Quantum Science & Technology
Quantum Theory is the theoretical foundation of present day physics that explains the character and overall performance of count number and electricity at the atomic and subatomic level. High Energy Physics is likewise referred to as Particle Physics is a department of physics that research the character of the particles.
Session 10: Graphene
Graphene is a unexpectedly at the horizon of substances technology and condensed-depend physics. This strictly two-dimensional fabric reveals highly excessive crystal and digital quality, and, in spite of its brief history, has already discovered an abundance of recent physics and ability applications.
Session 11: Classical and Modern Physics
Classical physics is a set of physics theories that predate present day, greater complete, or greater broadly relevant theories. If a presently established principle is taken into consideration to be present day, and its advent represented a main paradigm shift, then the preceding theories, or new theories primarily based totally at the older paradigm, will frequently be known as belonging to the location of "classical physics".
Modern physics is a department of physics both advanced withinside the early twentieth century and onward or branches substantially inspired via way of means of early twentieth century physics. Notable branches of present day physics encompass quantum mechanics, unique relativity and popular relativity.
Session 12: Applied Physics
Applied physics is the software of physics to remedy medical or engineering problems. It is commonly taken into consideration to be a bridge or a connection among physics and engineering. "Applied" is prominent from "pure" through a diffused mixture of factors, along with the incentive and mindset of researchers and the character of the connection to the era or technology that can be laid low with the work. Applied physics is rooted withinside the essential truths and primary standards of the bodily sciences, however is worried with the usage of medical ideas in sensible gadgets and systems, and withinside the software of physics in different regions of technology.
Session 13: Computational Physics
Computational physics is the take a look at and implementation of numerical evaluation to clear up issues in physics for which a quantitative concept already exists. Historically, computational physics become the primary utility of present day computer systems in science, and is now a subset of computational science. It is occasionally seemed as a sub discipline of theoretical physics, however others take into account it an intermediate department among theoretical and experimental physics - a place of take a look at which dietary supplements each concept and experiment.
Session 14: Plasma Science
Plasma, the maximum not unusualplace kingdom of remember withinside the universe, well-knownshows complicated and wealthy physics phenomena, inclusive of waves, turbulence, and interactions with materials. Studying plasmas is crucial to boost era improvement for sensible functions as growing useful fusion reactors and to apprehend the procedures in stars, planets, and inter-stellar space. PSFC scientists and college students boost plasma physics the use of contemporary centers and large-scale computation with an purpose of acquiring complete predictive knowledge of plasmas in a whole lot of situations.
Session 15: High Energy Nuclear Physics
High-electricity nuclear physics research the conduct of nuclear rely in electricity regimes usual of excessive-electricity physics. The number one attention of this subject is the observe of heavy-ion collisions, in comparison to lighter atoms in different particle accelerators. At enough collision energies, those forms of collisions are theorized to provide the quark–gluon plasma. In peripheral nuclear collisions at excessive energies one expects to reap facts at the electromagnetic manufacturing of leptons and mesons that aren't on hand in electron–positron colliders because of their tons smaller luminosities.
Session 16: Surface Enhanced Spectroscopy (SES)
Surface-superior Raman spectroscopy or surface-superior Raman scattering (SERS) is a surface-touchy approach that complements Raman scattering through molecules adsorbed on tough metallic surfaces or through nanostructures including plasmonic-magnetic silica nanotubes. The enhancement issue may be as a great deal as 1010 to 1011,this means that the approach might also additionally come across unmarried molecules.
Session 17: Atomic, Molecular & Optical Physics
Atomic, molecular, and optical physics (AMO) is the have a look at of count number-count number and light-count number interactions; at the dimensions of 1 or some atoms, and power scales round numerous electron volts. The 3 regions are carefully interrelated. AMO concept consists of classical, semi-classical and quantum treatments. Typically, the concept and packages of emission, absorption, scattering of electromagnetic radiation (light) from excited atoms and molecules, evaluation of spectroscopy, era of lasers and masers, and the optical residences of count number in general, fall into those categories.
Session 18: Spintronics
Spintronics a portmanteau that means spin shipping electronics., additionally called spin electronics, is the look at of the intrinsic spin of the electron and its related magnetic moment, further to its essential digital fee, in solid-nation devices. The area of spintronics worries spin-fee coupling in steel structures; the analogous consequences in insulators fall into the sphere of multiferroics. Spintronics basically differs from conventional electronics in that, further to fee nation, electron spins are exploited as a similarly diploma of freedom, with implications withinside the performance of facts garage and transfer. Spintronic structures are most customarily realised in dilute magnetic semiconductors (DMS) and Heusler alloys and are of specific hobby withinside the area of quantum computing and neuromorphic computing.
Session 19: Thermodynamics and statistical mechanics
In physics, statistical mechanics is a mathematical framework that applies statistical techniques and possibility principle to big assemblies of microscopic entities. It does now no longer count on or postulate any herbal laws, however explains the macroscopic conduct of nature from the conduct of such ensembles. Statistical mechanics arose out of the improvement of classical thermodynamics, a area for which it turned into a success in explaining macroscopic bodily houses which includes temperature, pressure, warmness capacity, in phrases of microscopic parameters that modify approximately common values, characterised via way of means of possibility distributions. This hooked up the sector of statistical thermodynamics and statistical physics.
Session 20: Optics and acoustics
Optics has had a completely lengthy and complete records, from historical Greece, thru the renaissance and contemporary-day times. As with optics, acoustics has a records of comparable duration, once more beginning with the historical Greeks. In contrast, the acousto-optic impact has had a quite quick records, starting with Brillouin predicting the diffraction of mild through an acoustic wave, being propagated in a medium of interplay, in 1922. This became then showed with experimentation in 1932 through Debye and Sears, and additionally through Lucas and Biquard. The specific case of diffraction on the primary order, beneathneath a positive attitude of incidence, has been found through Rytow in 1935. Raman and Nath (1937) have designed a preferred perfect version of interplay deliberating numerous orders. This version became evolved through Phariseau (1956) for diffraction which includes handiest one diffraction order.
Session 21: Applied mathematics
Applied arithmetic is the software of mathematical strategies through unique fields along with physics, engineering, medicine, biology, finance, business, pc technology, and industry. Thus, carried out arithmetic is a aggregate of mathematical technology and specialised knowledge. The term "carried out arithmetic" additionally describes the expert area of expertise wherein mathematicians paintings on realistic issues through formulating and analyzing mathematical models. In the past, realistic packages have encouraged the improvement of mathematical theories, which then have become the concern of observe in natural arithmetic in which summary ideas are studied for his or her very own sake. The pastime of carried out arithmetic is for this reason in detail linked with studies in natural arithmetic.
Session 22: Mathematical physics
Mathematical physics refers back to the improvement of mathematical techniques for utility to troubles in physics. The Journal of Mathematical Physics defines the sector as "the utility of arithmetic to troubles in physics and the improvement of mathematical techniques appropriate for such programs and for the components of bodily theories".
Session 23: Statistical mechanics
In physics, statistical mechanics is a mathematical framework that applies statistical techniques and chance concept to massive assemblies of microscopic entities. It does now no longer expect or postulate any herbal laws, however explains the macroscopic conduct of nature from the conduct of such ensembles. Statistical mechanics arose out of the improvement of classical thermodynamics, a area for which it turned into a hit in explaining macroscopic bodily homes together with temperature, pressure, warmth capacity, in phrases of microscopic parameters that modify approximately common values, characterized with the aid of using chance distributions. This mounted the sphere of statistical thermodynamics and statistical physics.
Session 24: Newtonian and post Newtonian
In physics, exactly withinside the idea of preferred relativity, post-Newtonian expansions (PN expansions) are used for locating an approximate answer of the Einstein area equations for the metric tensor. The approximations are increased in small parameters which specific orders of deviations from Newton's regulation of conventional gravitation. This lets in approximations to Einstein's equations to be made withinside the case of susceptible fields. Higher order phrases may be introduced to boom accuracy, however for robust fields now and again it's miles most popular to clear up the whole equations numerically. This technique is a not unusualplace mark of powerful area theories. In the limit, whilst the small parameters are same to 0, the post-Newtonian growth reduces to Newton's regulation of gravity.
Session 25: Biochemical engineering.
Biochemical engineering, additionally referred to as bioprocess engineering, is a subject of have a look at with roots stemming from chemical engineering and organic engineering. It especially offers with the design, construction, and development of unit strategies that contain organic organisms or natural molecules and has numerous programs in regions of hobby which include biofuels, food, pharmaceuticals, biotechnology, and water remedy strategies.The position of a biochemical engineer is to take findings evolved via way of means of biologists and chemists in a laboratory and translate that to a large-scale production process.