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Theme
Reaching out to the World of Matter and Innovations in Physics and Mathematics
- Applied Physics 2019

About

          Applied Physics 2019 Conferences conducts Novel conferences, Symposia and Workshops, concerning current international interest. Applied Physics 2019 Conferences want to serve the global information community in the development and distribution of high quality, scholarly conferences. It aim to support Global research communities, by empowering clusters of scientists to regularly meet and discuss topics with front runners in the field. These conferences cover diverse top ranked specialties and budding aspects of important and relatively broad subject areas.

          Why to Attend??

          This event provides a combined research platform for both Applied Physics and Mathematics, based on the theme: "Reaching out to the World of Matter and Innovations in Physics and Mathematics", which includes potent Keynote presentations, Oral talks, Poster presentations, and Exhibitions from the eminent professionals in the field of Physics, Maths and its disciplines.. This will be the best chance to outreach the large gathering of participants from all around the world and explore the fascinating connection between theoretical and practical concepts of Physics and Mathematics.

          Target Audience:

          Our Organization would be privileged to welcome the:


          •         Eminent Scientists from Physics and Mathematics
          •         Physics and Mathematics Research Professors
          •         Junior or Senior research fellows from Universities
          •         Engineering Students and PhD Scholars from Physics, Maths and its related fields
          •         Directors of companies
          •         Delegates from Physical Science and Mathematical Societies and Associations
          •         Physics, Maths associations and many more….

          Welcome Message

          Allied Academies cordially invites participants throughout the world to attend the International Conference on Applied Physics and Mathematics during October 16-17, 2019 at Barcelona, Spain which includes oral talks by eminent speakers, experiences of doctors and scientists, exhibits, poster presentations and sponsors. The aim of organizing the Applied Physics 2019 is giving exposure to technologies, government / institutional help, increase international tie-ups and to provide knowledge about research work going on Physics and Mathematics.

          Over years we Allied Academies have been conducting conferences on various issues related to science that we meet in our life. It is a global leader in organizing international conferences, meetings, workshops etc; at higher levels of quality. Being established in 1997 this publishing house has been built on the base of esteemed academic and research institutions including The College of Audiologists and Speech Language Pathologists of Ontario (CASLPO), The Association for Public Safety Communications Officials of Canada (APCO), The Canadian Vascular Access Association (CVAA), and The Canadian Society of Internal Medicine (CSIM).

          Sessions And Tracks

          Applied Physics:

                      Applied physics is the application of the science of physics to helping human beings and solving their problems. It is usually considered as a bridge or a connection between physics and engineering. Applied Physics is rooted in the fundamental truths and basic concepts of the physical sciences but is concerned with the utilization of scientific principles in practical devices and systems, and in the application of physics in other areas of science.

          Atomic & Molecular Physics:

          The goals of atomic, molecular, and optical physics (AMO physics) are to elucidate the fundamental laws of physics, to know the structure of matter and how matter evolves at the atomic and molecular levels, to understand light in all its manifestations, and to generate new techniques and devices. AMO physics provides theoretical and experimental methods and essential data to adjacent areas of science such as chemistry, astrophysics, condensed-matter physics, plasma physics, surface science, biology, and medicine. AMO theory embraces classical, semi-classical and quantum treatments. Typically, the theory and applications of emission, absorption, scattering of electromagnetic radiation (light) from excited atoms and molecules, analysis of spectroscopy, generation of lasers and masers, and the optical properties of matter in general, comes into these categories.

          • Atomic physics
          • Atomic collisions
          • Cold atoms and molecules
          • Atomic spectroscopy

          Lasers, Optics & Photonics:

                      A laser is a device which emits a beam of coherent light-weight through an optical amplification method. It differs from various other sources of light in that it emits light coherently. Spatial coherence permits an optical device to be targeted to a tight spot, enabling applications such as laser cutting and lithography. Spatial coherence conjointly allows a light beam to remain narrow over great distances (collimation), enabling applications like laser pointers and lidar. Lasers may also have high temporal coherence, which allows them to emit light with a slender spectrum

                      Optics is the branch of physics that studies the behaviour and properties of light, which includes its interactions with matter and therefore the construction of instruments that use or to detect it. Optics typically describes the behaviour of visible, ultraviolet, and infrared emission.

          Condensed Matter Physics:

          The logical investigation of the properties of issue, as in its strong and fluid stages, in which molecules or particles hold fast to each other or are very thought. Dense issue physicists try to comprehend the conduct of these stages by utilizing physical laws. Specifically, they incorporate the laws of factual mechanics, quantum mechanics and electromagnetism. Materials Science is a praised logical growing, train in late decades to encompass, earthenware production, glass, polymers, biomaterials and composite materials. It includes the revelation and outline of novel materials. A significant number of the most squeezing logical issues people by and by confront are because of the limits of the materials that are accessible and, as an item; real advances in materials science are probably going to influence the up and coming of innovation extensively.

          • Condensed matter theory
          • Study in condensed matter physics through scattering
          • Experimental condensed matter physics
          • Electronic theory of solids
          • Phase transition
          • Cold atomic gases

          High Energy Nuclear Physics:

          High vitality atomic material science learns about the conduct of atomic issue in vitality administrations. The most essential focal point of this field is the investigation of overwhelming particle crashes and when contrasted with the lower nuclear mass of iotas in other molecule quickening agents. At the extremely adequate impact energies there are a significant number of these kinds of crashes which is for the most part hypothesized to create the quark - gluon plasma. Customary atomic material science has been just given to learn about the cores which are tenderly done. Utilizing the high vitality light emissions cores particles we can make conditions of atomic issue that are exceptionally far expelled starting from the earliest stage. At the exceptionally adequate high densities and temperatures, the neutrons and the protons should soften into their constituent quarks and gluons. In the high vitality impacts of substantial cores the quarks and gluons are discharged from their hedonic limits and structure another condition of issue which is by and large called as Quark-gluon plasma.

          • High energy physics
          • Radioactivity
          • Theoretical nuclear physics
          • Theoretical particle physics
          • Subatomic physics
          • Collider physics

          Materials Physics:

          This covers the complete spectrum of structured materials, ranging from a basic understanding of the connection between their physical properties, structure and chemical composition, through strategies to control materials at nanometre scales, to the growth of devices with novel, pre-designed functionalities. All these aspects are addressed in lectures on systematic trends in the physics of a number of classes of materials, present developments and novel advanced materials.

          • Solid state physics
          • Materials science
          • Solid mechanics
          • Polymer chemistry
          • Superconductivity
          • Advanced composite materials

          Quantum Science & Technology:

          Quantum Physics is the learning of the particles at quantum level. Plausibility is utilized as a part of this. A quantum is the smallest possible unit of anything, and Quantum Science is the study of these particles and their application. Use of quantum mechanics in application to dense issue material science is a colossal zone of research. Both hypothetical research and down to earth is directly going ahead on the planet in quantum hardware, quantum PCs, gadgets utilizing both quantum mechanics and dense issue material science or theoretical material science. Quantum technology is a new field of physics and engineering, which transitions some of the properties of quantum mechanics, especially quantum entanglement, quantum superposition and quantum tunneling, into practical applications such as quantum computing, quantum sensors, quantum cryptography, quantum simulation, quantum metrology and quantum imaging.

          • Quantum states
          • Quantum field theory
          • Quantum information and quantum computing
          • Quantum optics
          • Quantum mechanics interpretations
          • Quantum Teleportation

          Nanophysics and Nanotechnology

          Nanotechnology is the branch of advancement that courses of action with estimations and strengths of under 100 nanometres, especially the control of individual particles and iotas. Any condensed matter systems whose at least one (out of three) dimension is of the order of nanometer can be considered as nanoscale system.Its applications incorporate distinctive sorts of recognizing segments, for instance, carbon nanotubes, zinc oxide nanowires or palladium nanoparticles can be used as a piece of nanotechnology-based sensors. Any condensed matter systems whose at least one (out of three) dimension is of the order of nanometer can be considered as nanoscale system. Nanoscience and nanotechnology are all about relating and exploiting phenomena for materials having one, two or three dimensions reduced to the nanoscale.

          • Nanomaterials- production, synthesis and processing
          • Nanoelectronics and nanometrology
          • Graphene and applications
          • Carbon nanotubes
          • Spintronic nanoengineering
          • CMOS  Integrated  Nanomechanical Resonators
          • Silicon Nanoelectonics and Beyond

          Electromagnetism and Electronics:

          The electromagnetic power expect a vital part in choosing the internal properties of most challenges experienced in regular day to day existence. Standard issue takes its edge as a result of intermolecular powers between particular particles and Molecules in issue, and is an appearance of the electromagnetic power. Electrons are bound by the electromagnetic power to atomic centres, and their orbital shapes and their impact on contiguous particles with their electrons is delineated by quantum mechanics. The electromagnetic power manages the strategies related with science, which rises up out of associations between the electrons of neighbouring iotas.

          • Electromagnetic induction
          • Magnetism and magnetic fields
          • Magnetization dynamics
          • Microelectronics
          • Semiconductor devices

          Gravitation:

          Gravity, additionally called gravitation, is a power that exists among every single material question in the universe. For any two articles or particles having nonzero mass, the power of gravity has a tendency to draw in them toward each other. Gravity works on objects of all sizes, from subatomic particles to bunch of universes. It additionally works over all separations, regardless of how little or extraordinary.

          • General relativity
          • Gravity and quantum mechanics
          • Gravity of Earth
          • Gravity and astronomy
          • Gravitational radiation
          • Speed of gravity

          Medical and Biophysics:

          Medical physics can be generally defined as a field in which applied physics techniques are used in medicine. Traditionally, medical physics deals chiefly with the use of ionizing or non-ionizing radiation in the diagnosis and treatment of disease. In radiation therapy, ionizing radiation is used to treat a wide variety of cancers through external-beam radiotherapy or brachytherapy.

          Biophysics is a bridge between biology and physics. Biology studies life in its variety and complexity. It describes how organisms go about getting food, communicating, sensing the environment, and reproducing

          • Medical imaging physics
          • Nuclear medicine physics
          • Health physics
          • Non-ionizing Medical Radiation Physics
          • Computational and theoretical biophysics.
          • Membrane biophysics.
          • Structural biology

          Mass Spectrometry:

          A process used to identify chemicals in a substance by their mass and charge. Mass spectrometers are instruments that measure mass and charge of molecules. A mass spectrometer also can determine how much of a compound is present in a mixture. Also known as mass spectroscopy. Mass spectrometry is an analytical technique that uses an instrument called a mass spectrometer to measure the mass-to-charge ratios of molecular ions. Molecules fragment within the mass spectrometer to produce a mass spectrum, which can be interpreted to determine the identity of the molecules in the sample.

          • Tandem Mass Spectrometry
          • Electron Capture Dissociation
          • Top-down analysis of proteins
          • Fourier Transform Ion Cyclotron Resonance Mass Spectrometry
          • Ion Mobility Mass Spectrometry
          • Imaging Mass Spectrometry

          Geophysics:

          Geophysics is the subsurface site characterization of the geology, geological structure, groundwater, contamination, and human artifacts beneath the Earth's surface, based on the lateral and vertical mapping of physical property variations that are remotely sensed using non-invasive technologies. Many of these technologies are traditionally used for exploration of economic materials such as groundwater, metals, and hydrocarbons. Geophysics is the non-invasive investigation of subsurface conditions in the Earth through measuring, analyzing and interpreting physical fields at the surface.

          • Cartography
          • Oceanography
          • Hydrology
          • Glaciology and Polar Science
          • Palaeontology and Palynology
          • Satellite/Remote Sensing
          • Mineralogy and Petrology
          • Soil Science
          • Meteorites
          • Seismology, Tectonics and Volcanology

          Astronomy:

          Astronomy is the scientific study of celestial objects (such as stars, planets, comets, and galaxies) and phenomena that originate outside the Earth's atmosphere (such as the cosmic background radiation).It is concerned with the evolution, physics, chemistry, meteorology, and motion of celestial objects, as well as the formation and development of the universe. Astronomy is one of the oldest sciences. Astronomers of initial civilizations performed methodical observations of the night sky, and astronomical artefacts have been found from much earlier periods. Still, the invention of the telescope was required before astronomy was able to develop into a modern science.

          • Solar system.   
          • Stars and stellar objects
          • Constellations      
          • Clusters and nebulae.
          • Galaxies.
          • Cosmology
          • Space exploration

          Atmospheric and Oceanic Physics:

                      Atmospheric physics is the branch of meteorology and it is associated with the climatology. It has close links to climatology and meteorology and conjointly covers the design and construction of instruments for finding out the atmosphere and therefore the interpretation of the data they provide, which includes remote sensing instruments.

                      Physical oceanography is the study of physical conditions and physical processes among the ocean, particularly the motions and physical properties of ocean waters.

          • Remote sensing
          • Aeronomy
          • Radiation
          • Ocean–atmosphere interface

          Algebra and Number Theory:

                      Algebra is the study of mathematical symbols and also the rules for manipulating these symbols. It is a unifying thread of almost all of arithmetics. It includes everything from elementary equation finding to the study of abstractions like groups, rings and fields.

                      Number theory could be a branch of pure mathematics devoted primarily to the study of the integers. Generally, it is referred to as "The Queen of Mathematics" due to its foundational place within the discipline.

          • Elementary algebra
          • Polynomials
          • Elementary tools
          • Analytic number theory
          • Algebraic number theory

          Geometry:

                      Geometry could be a branch of arithmetic concerned with questions of shape, size, relative position of figures and also the properties of space. Geometry arose independently in a number of early cultures as a functional path for dealing with lengths, areas, and volumes.

          • Topology
          • Euclidean geometry
          • Differential geometry
          • Discrete geometry

          Computational Mathematics:

                      Computational mathematics covers mathematical study in areas of science where computing plays a vital and essential role. Computational mathematics may also refer to the practice of using computers for mathematics itself, the study of what can be computerized in mathematics, which computations may be done with present technology.

          • Computational science
          • Stochastic
          • Computational geometry
          • Computational number theory

          Applied Mathematics:

                      Applied mathematics is the branch of mathematics that are involved in the study of the biological or physical world. It is an application of mathematical approaches by different fields like science, engineering, computer science, business and industry. Accordingly, it is a mixture of mathematical science and specialized knowledge. The word "applied mathematics" additionally clarifies the professional specialty in which mathematician’s works on practical problems by formulating and considering mathematical models.

          • Statistics
          • Mathematical economics
          • Actuarial science
          • Linear programming

          Mathematical Analysis:

                      Mathematical analysis could be the branch of mathematics which deals with the limits and related theories, such as integration, differentiation, measure, infinite series and analytic functions. Usually, these theories are studied in the context of real and complex numbers and functions. Analysis evolved from calculus, which includes the elementary concepts and techniques of analysis.

          Market Analysis

          MARKET ANALYSIS

          Applied Physics is intended for technical and practical use. Applied Physics is established in the basic certainties and essential ideas of the Physical sciences and it utilizes the scientific principles in practical devices and in other related areas such as Lasers, Optics, Semiconductor devices and Nanophotonics. Demand for Physics is always there in the market because of its applications.

          In the past market analysis it was suggested that the worldwide market for Physics was expected to reach around£3.4 billion by2015. As indicated by later gauges by market forecasters BCC research, the global market for Physics based industries was worth significantly more, about £4.3 billion more in 2010 and is expected to increase around£6.2 billion by2015, proportionate to the annual growth of 7.7%.Extending applications in the Cardiac, Breast MRI and Neurologic areas are expected to drive the world market which was anticipated to increase from£770 million in 2010 to reach around £1.2 billion by 2015 which is equivalent  to yearly development 9.3% a year.

          Lasers &Optics

          The global market value for Quantum Cascade Lasers according to BCC research has reached $5.6 billion in 2015. Future market value is expected to increase from$6.1 billion in 2016 to $9.7 billion in 2021 at a Compound Annual Growth Rate (CAGR) of 9.7% for 2016-2021.

          Ultrafast Lasers market value has reached $2.1 billion in 2015 and it is expected to increase from around $2.7 billion in 2016 to nearly $7.1 billion by 2021 at a CAGR of 21.7% for 2016-2021.

          The global market for Fiber Optics is expected to reach $3.2 billion by 2021 from $2 billion in 2016 at a CAGR of 9.9% from 2016 – 2021.

          Global market for Optical Coatings is expected to reach around $14.2 billion by 2021 from $9.5 billion in 2016 at a CAGR of 8.3% from 2016 through 2021.

          Quantum Dots

          Quantum Dots market value is aggregated to $610.0 million revenue in 2016 and is expected to turn over $3.4 billion by 2021, increasing to a CAGR of 41.3% from 2016 to 2021.

          Quantum Dots market value was estimated to $121 million in revenues in 2013.In 2010, its worth was estimated to reach $67 million in revenues and it was projected to grow at a CAGR of 59.3%, reaching almost $670 million by 2015.

          Nanotechnology

          BCC research review report which was published in 2014 covers advanced topics like quantum dots, nanotechnology, ceramics, nanocomposites and nanofiltration.

          The global market for nanophotonic devices s projected to grow from more than $1.8 billion in 2010 and around $2.5 billion in 2011 to $10.9 billion in 2016 with a CAGR of 34.8% during 2011 to 2016

          Global market for thermostatic nanomaterial market was estimated to nearly $106 billion in 2011 and $112 billion in 2012. By 2017, it was around $188 billion with 10.8% CAGR. In 2010, the total market for nanobiotechnology products is $19.3 billion and has grown at a CAGR of 9% .

          Carbon Nanotubes (CNT)

          Market value for Carbon Nanotubes (CNT) primary grades was $158.6 million in 2014.this is projected to reach a value of $167.9 million in 2015 and $670.6 million in 2019 with a CAGR of 33.4%from 2014 to 2019.

          The global market value for CNT in 2011 was $192 million. It was estimated to$239 million revenues in 2012 and also projected to grow to a CAGR of 22.4% in the next five years .

          Photonics

          The global market for Photonic sensors and detectors was $6.3 billion in 2013. This market is projected to grow from nearly $7.3 billion in 2014 to about $15.2 billion in 2019, by registering a CAGR of 15.9% during a period from 2014-2019.

          Photonic integrated Circuit(IC) technology global market has reached $165.3 million in 2012. This market is projected to increase to $206.5 million in 2013 and $866.4 million in 2018 with a CAGR of 33.2% from 2013 to 2018.

          Semiconductor Manufacturing

          Market value for dielectrics materials globally has reached approximately around $43.3 billion in 2016 and was estimated to reach nearly $62.5 billion in 2021, registering a CAGR of 7.6% through 2021.

          Electronic display materials has reached around $61.5 billion in 2016. This market was estimated to reach $128.0 billion by 2022 with a CAGR of 13.3% over a five year time period from 2017 to 2022.

          Organizing Committee
          OCM Member
          Victor V. Apollonov
          Head of the Department, High-Power Lasers
          Russian Academy of Sciences
          Federal City, Russia
          OCM Member
          Alexander G. Ramm
          Professor, Applied mathematics
          Kansas State University
          Kansas, USA
          OCM Member
          Sergey I. Pokutnyi
          Professor, Theoretical Physics
          Chuiko Institute of Surface Chemistry
          Kiev, Ukraine
          OCM Member
          Masaharu Oshima
          The university of Tokyo
          Bunkyo, Japan
          OCM Member
          Gh.Saleh
          Saleh research centre
          Shiraz, Iran

          To Collaborate Scientific Professionals around the World

          Conference Date October 16-17, 2019
          Speaker Oppurtunity Day 1 Day 2
          Poster Oppurtunity Available
          e-Poster Oppurtunity Available
          Sponsorship Opportunities Click here for Sponsorship Opportunities
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          Terms and Conditions

          Cancellation, Postponement and Transfer of Registration

           

          If Allied Academies cancels this event for any reason, you will receive a credit for 100% of the registration fee paid. You may use this credit for another Allied Academies event which must occur within one year from the date of cancellation.

           

          If Allied Academies postpones an event for any reason and you are unable or unwilling to attend on one of the rescheduled dates, you will receive a credit for 100% of the registration fee paid. You may use this credit for another Allied Academies event which must occur within one year from the date of postponement.

           

          Allied Academies is not responsible for any loss or damage as a result of substitution, alteration or cancellation/postponement of an event. In the unlikely event of cancellation or postponement of the conference due to circumstances beyond Allied Academies reasonable control including but not limited to, acts of terrorism, war, and natural disaster, Allied Academies cannot be held responsible for any cost, damage or expense which may be incurred by registrants as a consequence of the event being postponed or cancelled. Due to any unavoidable circumstances, if there is a change in venue of the conference, all the registered participants will be intimated immediately regarding the change.

           

          All fully paid registrations are transferable to other persons from the same organization, if registered person is unable to attend the event. Transfers must be made by the registered person in writing to is sophia.martin@alliedscholars.com. Details must include the full name of replacement person, their title, contact phone number and email address. All other registration details will be assigned to the new person unless otherwise specified.

           

          Keeping in view of advance payments towards Venue, Printing, Shipping, Hotels and other overheads, we had to keep Refund Policy is as following slabs-


          •         Before 60 days of the conference: Eligible for Full Refund less $100 Service Fee
          •         Within 60-30 days of Conference: Eligible for 50% of payment Refund
          •         Within 30 days of Conference: Not eligible for Refund
          •          E-Poster Payments will not be refunded

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