Call for Abstract

Global Summit on Applied Physics and Computational Mathematics, will be organized around the theme “An Insight into the Recent Cutting-Edge Technologies in Physics

Mail us at: appliedphysics@annualamericacongress.org

Applied Physics Conference 2019 is comprised of keynote and speakers sessions on latest cutting edge research designed to offer comprehensive global discussions that address current issues in Applied Physics Conference 2019

Submit your abstract to any of the mentioned tracks.

Register now for the conference by choosing an appropriate package suitable to you.

  • Track 1-1Fluid Dynamics
  • Track 1-2Industrial and Statisticle Physics
  • Track 1-3Metrology
  • Track 1-4Semiconductors
  • Track 1-53D Printing and Technology
  • Track 1-6Bioinformatics and computational biology
  • Track 1-7Stealth Technology
  • Track 1-8Accelerator Physics
  • Track 1-9Engineering applications and scientific computations
  • Track 2-1Computational Engineering
  • Track 2-2Computational statistics
  • Track 2-3Computational group theory
  • Track 2-4Financial Mathematics and Engineering
  • Track 2-5Dynamical Systems Differential Equations
  • Track 2-6Applied partial differential equations
  • Track 2-7Algebra, Geometry and Fuzzy Mathematics
  • Track 2-8Mathematical modeling, simulation and optimization
  • Track 2-9Mathematical methods in optics and electromagnetics
  • Track 2-10Algorithmic game theory
  • Track 2-11Applied mathematics
  • Track 2-12Computational number theory
  • Track 3-1Ultrasonics
  • Track 3-2Vibration and dynamics
  • Track 3-3Acoustic signal processing
  • Track 3-4Bioacoustics
  • Track 3-5Electroacoustics
  • Track 3-6Musical acoustics
  • Track 3-7Underwater acoustics
  • Track 3-8Speech
  • Track 4-1Astroparticle Physics
  • Track 4-2Cosmo Particle Physics
  • Track 4-3Energy of Cosmos
  • Track 4-4Planetory Science
  • Track 5-1Superconductivity
  • Track 5-2Graphene
  • Track 5-3Organic Electronics
  • Track 5-4Theoretical and Experimental Study of Soft Matter
  • Track 5-5Photovoltaics
  • Track 5-6Cryogenics
  • Track 6-1Laser Systems
  • Track 6-2Optical Fiber
  • Track 6-3Optical Physics
  • Track 6-4Optical Metrology
  • Track 6-5Laser spectroscopy
  • Track 6-6Optical communications
  • Track 7-1Electrostatics and Electromagnetic Waves
  • Track 7-2Ferromagnetism
  • Track 7-3Electromagnetic radiation
  • Track 7-4spintronics
  • Track 7-5Magnetic fluids
  • Track 7-6Magnetic cores
  • Track 7-7Magnetic thin film devices
  • Track 7-8Magnetostatic wave devices
  • Track 8-1Atomic spectroscopy
  • Track 8-2Photoionization
  • Track 8-3Magnetochemistry
  • Track 9-1Nanomaterials
  • Track 9-2Nanoparticles
  • Track 9-3Nano-Structures
  • Track 9-4Molecular Nanotechnology
  • Track 9-5Nanosystems Engineering
  • Track 9-6Nano-scale Materials Physics
  • Track 10-1Soil physics
  • Track 10-2Aeronomy
  • Track 10-3Atmospheric electricity
  • Track 10-4Cloud physics
  • Track 10-5coastal processes
  • Track 10-6Internal waves and nonlinear dynamics
  • Track 10-7Climate and large scale dynamics
  • Track 10-8Agrophysics
  • Track 10-9Petrophysics
  • Track 10-10Remote sensing
  • Track 11-1Gravity
  • Track 11-2Mineral physics
  • Track 11-3Radioactivity
  • Track 11-4Heat flow
  • Track 11-5Vibrations
  • Track 11-6Global warming
  • Track 12-1Classical tribology
  • Track 12-2 Space tribology
  • Track 12-3Geotribology
  • Track 12-4Biotribology
  • Track 13-1Radiation therapeutic physics
  • Track 13-2Nuclear medicine physics
  • Track 13-3Membrane biophysics.
  • Track 13-4Biophysical approaches to cell biology.
  • Track 13-5Non-ionizing Medical Radiation Physics
  • Track 14-1Ionizing Radiation
  • Track 14-2Uranium
  • Track 14-3Nuclear Weapons and Fallout
  • Track 14-4Radiation biology
  • Track 14-5Non-ionizing radiation
  • Track 14-6Ionizing radiation
  • Track 14-7X-rays, Synchrotron Radiation and Crystallography
  • Track 15-1Crystal structure and properties
  • Track 15-2Surface enhanced Raman Spectroscopy
  • Track 15-3Surface states
  • Track 15-4 friction
  • Track 15-5Two-dimensional materials
  • Track 15-6Strongly correlated materials
  • Track 15-7Quasicrystals
  • Track 15-8High-temperature superconductivity
  • Track 15-9Nanomaterials
  • Track 15-10 X-ray Photoelectron Spectroscopy (XPS)
  • Track 16-1Quantum Mechanics
  • Track 16-2Quantum Science
  • Track 16-3Quantum optics
  • Track 16-4Quantum technology
  • Track 16-5Quantum Field Theory
  • Track 17-1 Thermodynamics
  • Track 17-2Artificial Intelligence[
  • Track 17-3Microwave Engineering
  • Track 17-4Vehicle dynamics
  • Track 17-5Metallurgy
  • Track 17-6Ballistics
  • Track 17-7Applied mechanics
  • Track 17-8Applied mathematics
  • Track 17-9 Crystallography
  • Track 17-10Synthesis and processing
  • Track 17-11Kinetics
  • Track 17-12Mathematical modeling in materials science and biology
  • Track 18-1Nuclear Engineering
  • Track 18-2Nuclear technology
  • Track 18-3Nuclear electromagnetic pulse (NEMP) Engineering
  • Track 18-4 Nuclear decay
  • Track 18-5Nuclear fusion
  • Track 18-6Nuclear fission
  • Track 18-7 Electrons, Protons, and Neutrons
  • Track 18-8Theoretical particle physics
  • Track 19-1Artificial plasmas
  • Track 19-2Fluid and Kinetic model
  • Track 19-3Complex plasma phenomena
  • Track 19-4Plasma potential
  • Track 19-5Magnetised & non-magnetised plasma
  • Track 19-6Magnetic fusion concepts