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WCP 2018

About Conference


About Conference:

ConferenceSeries Ltd welcomes you all to the ‘World Congress on Physics’ during May 29-31, 2018 at Prague, Czech Republic. The theme of the conference is “ …….’’. The Committee is looking forward to organize an exceptional meeting with new and interesting sessions and discussion and to meet new people where you can share your subject and passion. At Physics 2018 you can acquired new information and will be very useful for expanding the knowledge in the field and generating new ideas to improve yourself and your professional career.

Importance and Scope:

Physics 2018 conducts a wide range of sessions and Tracks which provides the participants and all the attendees with an opportunity to extend their information in the subject and interact with professionals in the field of Physics. The agenda of the conference highlights new and advanced science and current topics with interesting Sessions, Symposia, Workshops, and Plenary talks, Keynote Presentations, Young Researchers Forum and Poster Sessions.

Conference Highlights:

Modern Astrophysics and Cosmology

Atomic and Molecular Physics

Mathematical & Computational Physics

Condensed Matter Physics

Quantum Physics and Technology

Optics and Lasers

High Energy Nuclear Physics

Material Science and Engineering

Plasma Physics

Magnetism and Magnetic Materials

Condensed Matter Physics

Electromagnetism and Electronics

Applied Physics

Nano-Technology

Medical Physics and Biophysics

Spintronics

Many Body Physics

Advanced Materials and Funtional Devices

Organic Electronics

Graphene

Experimental Physics

Nano scale Physics

Soft Condensed Matter Physics

Materials Physics

Space Physics

Session/Tracks

Modern Astrophysics and Cosmology:

Astro-Particle Physics is the new field of research rising at the point of Particle material science, astronomy, and cosmology. It plans to reply essential inquiries identified with the account of the Universe such as: What is the Universe made of? What is the inception of astronomical beams? What is the idea of gravity?. To answer these exceptionally testing questions, physicists are creating tests to identify these new delegates from the Universe. The term Cosmology is the investigation of the inception, advancement, and possible destiny of the universe. In different terms cosmology is logically furthermore, insightful the investigation of the beginning, vast scale structures

Atomic and Molecular Physics:

Atomic Physics is the investigation of molecules and the arrangementof electrons. It generally thinks about molecule as a confined framework that comprises of atomic nucleus nuclear core surrounded by electrons and the arrangement is concernced about procedures, for example, excitation by photons and ionization or impacts with nuclear particles. It has prompted essential applications in drug, lasers, correspondences, and so forth and furthermore giving a proving ground to Quantum Theory, Quantum Electrodynamics and its derivatives.

Mathematical & Computational Physics:

Computational physics is the examination and execution of numerical investigation to solve problemsin physics for which a quantitative hypothesis as of now exists. Generally, computational physicswas the principal use of current computers in science, and is presently a subset of computational problems in physics.Mathematical Physics alludes to improvement of mathematical techniques for application to issues in material science. The Journal of Mathematical Physics characterizes the field as ""the application of mathematics to problems in Physics and the improvement of numerical techniques reasonable for such applications and for the detailing of physical theories"". It is a branch of applied mathematicsscience, but it manages physical issues.

Condensed Matter Physics :

Codensed Matter physicists consider how matter emerges from an extensive number of cooperating electrons and particles, and what physical properties it has because of these interactions. The field of condensed investigates the macroscopic and microscopic properties of matter.The main focusissue. The principle consideration is pursued to material science of strong, fluid and, stage equilibria, formless frameworks and stage changes, electric, attractive, warm, basic and optical properties of condensed matter Physics.

Quantum Physics and Technology :

Quantum Physics is the learning of the particles at quantum level. Plausibility is utilized as a part of this. Use of quantum mechanics in application to condensed matter physics is a wide range area of research. Both hypothetical research and practical is directly going ahead on the universe in quantum elctronics, quantum computers, gadgets utilizing both quantum mechanics and condensed matter physicsor, then again Theoretical physics.

Optics and Lasers:

Light Amplification by Stimulated Emission of Radiation(Laser). More specifically, one usually means laser oscillators, but sometimes also includes devices with laser amplifiers. The first laser device was a pulsed ruby laser, demonstrated by Theodore Maiman in the 1960s. In the same year, the first gas laser, a helium–neon laser and the first laser diode were made. Semiconductor lasers, that are predominantly laser diodes, that are electrically or optically pumped, efficiently generating very high output powers, but typically with poor beam quality, or low powers with very good spatial properties for application in media players, or pulses for example for telecom applications with very high pulse repetition rates. Special types include quantum cascade lasers for mid-infrared light and surface-emitting semiconductor lasers, the latter also being suitable for pulse generation with high powers.

High Energu Nuclear Physics:

In the high-energy nuclear physics we probe that nuclear matter is on the level of its fundamental constituents such as quarks and gluons. The phase transition between de confined quark-gluon matter, normal quark-gluon matter and normal nuclear matter is called as Quark Gluon Plasma. In the very high energy collisions of heavy nuclei quarks and gluons are released from the hadronic bounds of matter and therefore the new state of matter is formed which is also called as Quark-gluon plasma. The transition from the hadronic matter where neutrons, protons and other hadrons are individual particles to the quark-gluon plasma phase which is a definite prediction to the theory of strong interactions. Generally the high energy collisions of heavy nuclei that is plasma which lives only for 10-22 sec because it gets back to the hadronic phase when its rapid expansion is cooled down.

Material Science and Engineering:

The interdisciplinary field of materials science which is commonly termed materials science and engineering and it involves in the discovery and design of new materials with an importance on solids. The knowledgeable origins of materials science stem was only clarified when researchers began to use analytical thinking from chemistry, physics and engineering to understand the ancient, phenomenological observations in metallurgy as well as mineralogy. Materials science is a syncretic discipline ceramics, hybridizing metallurgy, solid-state physics and chemistry. It is the first example of a new academic discipline evolving by fusion rather than fission.

Plasma Physics :

The term plasma refers to the fourth state of matter. The plasma is not only most energetic but also most challenging for researchers in the state of matter. The applications of plasma can even provide the major benefits over existing methods. Often the processes can be performed that are not even possible in any other manner. Plasma can also provide an efficiency increase in the processing methods and also very often can reduce the environmental impact in comparison to more conventional processes. Electric conductivity in magnetised and non-magnetised plasma

Magnetism and Magnetic Matterials:

Magnetic materials are those materials that can be either involved or resisted when placed in an external magnetic field and can be magnetized themselves.

Condensed Matter Physics:

The scientific study of the properties of matter, as in its solid and liquid phases, in which atoms or particles adhere to each other or are highly concentrated. Condensed matter physicists seek to understand the behaviour of these phases by using physical laws. In particular, they include the laws of statistical mechanics, quantum mechanics and electromagnetism. Materials Science is a commended scientific expanding, discipline in recent decades to surround, ceramics, glass, polymers, biomaterials and composite materials. It involves the discovery and design of novel materials. Many of the most pressing scientific problems humans presently face are due to the boundaries of the materials that are available and, as a product; major advances in materials science are likely to affect the upcoming of technology considerably.

Electromagnetism and Electronics:

The electromagnetic force assumes a noteworthy part in deciding the inner properties of most protests experienced in everyday life. Standard issue takes its frame because of intermolecular powers between singular atoms and Molecules in matter, and is an appearance of the electromagnetic force. Electrons are bound by the electromagnetic force to nuclear cores, and their orbital shapes and their effect on adjacent particles with their electrons is depicted by quantum mechanics. The electromagnetic power administers the procedures associated with science, which emerge from connections between the electrons of neighboring atoms. Applied Physics : Applied physics is the physical science which is proposed for a particular innovative or reasonable utilize. It is typically considered as an association amongst physics and Innovation. "APPLIED" is recognized from "unadulterated" by an unobtrusive blend of variables, for example, the inspiration and approach of specialists and the idea of the relationship to the innovation of science that may be influenced by the work. It as a rule contrasts from building in that a connected physicist may not be planning something in particular, but instead is utilizing physics or directing physical science inquire about with the point of growing new advances or settling a designing issue. This approach is similar to that of Applied mathematics.

Nano-Technology:

Nanotechnology is the branch of innovation that arrangements with measurements and resiliences of under 100 nanometres, particularly the control of individual particles and atoms. Its applications include different sorts of distinguishing components, for example, carbon nanotubes, zinc oxide nanowires or palladium nanoparticles can be utilized as a part of nanotechnology-based sensors.

Meidcal Physcis and Biophysics:

Spintronics: Spintronics is a novel area in nanoscale electronics that deals with the sensing and manipulation of electron spin. This is a novel field in electronics at a nanoscale, that involves the detection and manipulation of the spin of electrons. Electron spin can be sensed as a magnetic field having one of two orientations, known as down and up. This gives away two additional binary states to the conventional low and high logic values. These values are represented by simple currents. With the addition of the spin state to the mix, a bit can have four possible states, which is be called down-low, down-high, up-low, and up-high. These four states represent quantum bits (qubits). This advanced technology has been tested in critical devices as the hard – drives with their mass-storage components.

Many Body Physics:

Physicists use theoretical and experimental methods to develop justifications of the goings-on in nature. Surprisingly, many occurrences such as electrical conduction can be elaborated through relatively streamlined mathematical pictures — models that were landscaped well before the coming of modern computation. And then there are affairs in nature that push even the limits of high performance computing and advanced experimental tools. Computers specially struggle at simulating systems made of numerous particles--or many-bodies – engaging with each other through multiple competing pathways. Yet, some of the most provocative physics happens when the individual particle conduct give way to emergent collective properties. The theory of Quantum Thermodynamic Motion (or QTM) is an area of physics which provides a assembled framework of comprehending for the behavior of complex assemblies, namely their constitute particles and force interactions. In general terms, the many-body hypothesis describes effects that demonstrate themselves in a system which contains a large numbers of non-trivial forces (e.g. particles and fields). While the basal laws of physics that govern the bodies of motion on each individual particle may or may not be trivial, the study of systems collective particles may display extremely complex phenomena. As often is the case in which a tangled array of forces reveal nascent phenomenon which oft bear little or no commonality to the underlying system dynamics.

Advanced Materials and Funtional Devices:

The Advanced Materials Industry incorporates a full cycle shape materials extraction and essential creation. The improvement of advanced materials is related with the generation ofrecent knowledge and intellectual property, a combination of the association with advanced materials.The Advanced materials directorate has in the past monetary year built up a gauge examine on the part in south Africa. Organic Electronics: Organic Electronics is a field of materials science concerning the plan, portrayal, and use of natural polymers that show alluring electronic properties, for example, conductivity. Not at all like customary inorganic conductors and semiconductors, organic electronic materials are built polymers utilizing manufactured techniques created in the polymer science.

Graphene :

Graphene is a mix of graphite and the suffix – ene, named byHanns-Peter Boehm, who described single-layer carbon thwarts in the year 1962. The term nvolved first showed up in 1987 to portray single sheets of graphite as a constituent of graphite intercalation compounds (GICs). Hypothetically GIC is a crystalline salt of the intercalant and nvolved. The term waslikewise utilized as a part of early depictions of carbon nanotubes, and additionally for epitaxial nvolved and polycyclic fragrant hydrocarbons (PAH). Graphene is viewed as an “interminable alternant” (just six-part carbon ring) polycyclic fragrant hydrocarbon. The poisonous quality of nvolved has been broadly wrangled in the writing. The most far reaching survey on nvolved poisonous quality abridged the in vitro, in vivo, antimicrobial and natural impacts and features the different systems of nvolved danger. The poisonousquality of nvolved is subject to elements, for example, shape,estimate, virtue, after generation handling steps, oxidative state, useful gatherings, scattering state, blend strategies, course, measurement of organization and presentation times.Structural and functional attributes of grapheme Synthesis of grapheme Field emission and graphen Quantum transport in nvolved based materials Doping of grapheme Nanostructured grapheme Carbon nanotubes Electronic and photonic applications.

Experimental Physics:

Experimental Physics is an contradiction to Theoretical Physics. It tries to investigate physical wonders to affirm or prevent the expectations from securing hypothesis. Experimental physics for the most part concentrates on the instruments and the information it yields. In Experimental physics, Theoretical models are tried and new models are manufactured.

Nanoscale Physics:

In Nano-scale Physics, the application of nanotechnology is scientific information to measure, create, pattern, manipulate, utilize or incorporate materials and components. It is of more extensive criticalness that the energy of nanotechnology has empowered intricacy to be comprehended at ever littler scales, which is helping humankind to comprehend the particular premise of a portion of the most established and most interactable of innovations, such as those nvolved in medicine and food. In Nano-scale the detail nanostructural is microstructure and to depict nanostructures it is important to recognize the quantities of measurements in the volume of a protest. The surfaces have one measurement on the nanoscale are called Nanotextured surfaces. In science Nanoscale structure is frequently called as ultrastructure. In Physics, the properties of nanoscale items and troupes of these articles are widely studied.

Soft Condensed Matter Physics:

Soft condensed matter is a youthful turf of condensed matter physics. This field is by and large depicted as materials concerned about a solid application on understanding macromolecular gatherings. The constituent particles are consolidated by traditional mechanics and quantum-mechanical impacts in their associations can be ignored in many structures. Such structures are said to be subject of soft condensed matter physics . The word soft in this setting does not have anything to do with the non-abrasiveness of the resulting material, but it is only an intermediary to the traditional idea of the particles.

Materials Physics:

"The physical properties of materials are depicted by material physics.It is a blend of physical sciences, such as chemistry, strong mechanics and materials science. Materials physicsapplies key condensed matter models to complex multi-stage media, including materials of mechanical intrigue and it is likewise considered as subsection of condensed matter physics. . A material is characterized as a substance that is expected to be utilized for specific applications. There are a horde of materials around us they can be found in anything from buildings to spacecraft. Crystalline and non-crystalline are two classes of Materials. Materials physicsamalgamation, the subjects of materials like metals, semiconductors, earthenware production and polymers. New and propelled materials that are being produced incorporate Nano-materials and bio-materials etc.

Space Physics:

Space Physics is the investigation of plasmas as they happen normally in the Earth's upper climate. Thusly, it envelops a far-going number of subjects, for example, heliophysics which incorporates the sun based material science of the Sun: the sun based breeze, planetary magnetospheres and ionospheres, auroras, vast beams, and synchrotron radiation. Space material science is very important of the investigation of room climate and has essential ramifications to understanding the universe, as well as to practical regular day to day existence, including the operation of correspondences and climate satellites. Space material science is particular from different fields of astronomy which examine comparable wonders, in that space physical science uses in situ estimations from high height rockets and shuttle

Market Analysis

Market Analysis:

Physics is a standout amongst the most prepared insightful Disciplines, possibly the most settled through its thought of cosmology. Throughout the latest two centuries, Physics was a bit of consistent judiciousness nearby Chemistry, science, and certain branches of number juggling, yet in the midst of the sensible distress in the seventeenth century, the regular sciences ascended as novel research programs in their own particular right. Material science focalizes with various interdisciplinary scopes of research, for instance, biophysics and quantum science, and the points of confinement of Physics are not firmly portrayed. New contemplations in Physics routinely clear up the essential frameworks of various sciences. While opening new streets of research in ranges, for instance, math and hypothesis.

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International Conference on World Congress on Physics will be the greatest gathering devoted to Physics gives a head specialized discussion to revealing and finding out about the most recent innovative work, alongside propelling new applications and advances. Occasions incorporate hotly debated issues introductions from everywhere throughout the world and expert systems administration with ventures, driving working gatherings and boards. ConferenceSeries Ltd is leading this occasion which incorporates exhibit critical subjects of material science meetings, for example, medicinal material science gathering, connected physical science gathering, word related physical science meeting, high vitality physical science gathering, plasma physical science gathering, connected physical science gathering, consolidated issue physical science gathering, quantum physical science gathering, and so on.

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