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6th International Conference on Condensed Matter and Materials Physics, will be organized around the theme “Current Approaches Of Science And Technology In Materials Physics”
materialsphysics-cs-2020 is comprised of keynote and speakers sessions on latest cutting edge research designed to offer comprehensive global discussions that address current issues in materialsphysics-cs-2020
Submit your abstract to any of the mentioned tracks.
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The field of physics that deals with the macroscopic physical properties of matter is called condensed matter physics. Specifically, it is worried about "condensed" phases that show up whenever the quantity of particles in a system is very huge and the collaborations between them are strong.
- Surface Physics
- Polymer Physics
- Solid-State Physics
- High-Pressure Physics
The word Nanophysics alludes to the engineering of matter, particles, and structures on the nanometre scale. Essential properties of materials, for example, the electrical, optical, thermal and mechanical properties, are controlled by the manner in which atoms and molecules collect on the nanoscale into bigger structures. Nanotechnology is the use of nanoscience prompting the utilization of new nanomaterials and nanosize segments in applicable products. In the long run, nanotechnology will give us the capacity to structure specially crafted materials and products with new upgraded properties, new nano electronic parts, new sorts of smart medicines and sensors.
A Nuclear material science is utilized to remove the atomic power from the radioactive material. The atomic reactor starts and controls the atomic chain response. The present day atomic reactors depend on the atomic splitting response. The Nuclear Reactor bridle the warm vitality discharged by the atomic parting response and this discharged vitality is consumed by the water or coolant and afterward it is changed over to gas with high weight. This high weight gas is then passed to the gas turbine which creates the power from this high weight gas.
Materials physics looks at the physical properties of materials. Materials physics is considered a subset of condensed matter physics and applies fundamental condensed matter concepts to complex multiphase media, including materials of technological interest. Materials physics conference serves as a connection between physics and materials. Materials physics is the use of physics to describe the physical properties of materials. Materials Physics comprises of physical sciences such as chemistry, solid mechanics, solid state physics, and materials science.
The future of nanotechnology has been a massive topic of many scientific and non-scientific considerations, including several doomsday visions in various culture that predicted self-replicating Nano particles taking part in massive assaults on humanity and the environment. Nano materials is an emerging science and is expected to have a rapid growth in upcoming periods because of advancement in technology. It is predicted that it contributes a huge factor for economic growth and job opportunities. This topic explains about the fundamental and applied aspects of nanotechnology in material science.
The global objection of climate and energy require advance technologies for renewable energy sources, methods of energy storage, efficient energy use, techniques for carbon capture and storage, climate engineering, as well as an appreciation of the contribution of these on the environment. This will be ideal for everyone to acquire skills in energy and materials science in order to contribute in the emerging challenges to meet climate change targets. This concept will result in producing cleaner and more efficient sources of energy in order to solve our present energy related concerns and steer society to a more sustainable future. This session will certainly be of extreme practical importance and will focus on batteries, super capacitors, fuel cells, catalytic materials and sensors for environmental protection and solar cells. The topic covers various materials aspects which will improvise our ideas in an efficient manner.
Astrophysics is a discipline of Astronomy, which deals with the laws of physics and chemistry to elucidate the birth, life and death of stars, planets, galaxies, nebulae and other entities in the universe are imposed. It has two sibling sciences, astronomy and cosmology, and the lines between them is fuzzy. Astronomy creates physical theories of small to medium-size structures in the universe. Cosmology does this for the larger structures, and the universe as a whole. In the field, the three disciplines form a tight-knit family. Some areas where we can see the applications of research in astronomy are electronics, advanced computing, communication satellites, optics, solar panels and MRI Scanners.
Medical physics is also known as Applied Physics in medicine, biomedical physics or medical biophysics. Theories, concepts and methods of Physics are applied to medicine and health care in this Medical physics. Areas of specialty of Medical physics include Medical imaging physics, Radiation therapeutic physics, Nuclear medicine physics, Health physics, Clinical audiology physics, Laser medicine, Medical optics, Neuro physics, Cardio physics, Physiological measurement techniques, Physics of human and animal bodies, Health care informatics and computational physics and areas of R&D(Research and Development).
Biophysics acts as a bridge connecting Biology and Physics. The challenge of Biophysics is to span the distance between the complexity of life and the simplicity of physical laws. Applications of Biophysics include vaccines against infectious diseases, controlling metabolic diseases such as diabetes, medical imaging techniques such as MRI, CAT scans, PET scans and sonograms for diagnosing diseases. Biophysics provides life-saving treatment methods of kidney dialysis, radiation therapy, cardiac defibrillators, and pacemakers.
Advanced ceramics materials, substances and processes used in the advancement and manufacture of ceramic materials that exhibit special properties. A ceramic material is a non-metallic, inorganic, often crystalline oxide, nitride material. Some elements like carbon or silicon may be considered as ceramics. Ceramic materials are hard and strong in compression, weak in shearing and tension. They resist chemical erosion that occurs in other materials subjected to acidic or caustic environments. Ceramics generally can withstand very high temperatures.
Smart materials can change their physical properties in response to a specific stimulus input. However, there is still a foggy image over the types and potential applications of smart materials. They have a more important role to play in the up and coming periods of the development which will be a more prominent help for mankind. The session will explain about the upcoming smart materials and structures in the modern world.
- Emerging Technologies in materials science
- Semiconductors and superconductors
- Smart materials in drug delivery systems
- Sensors and smart structures technologies for Civil, Mechanical, and Aerospace systems
- Electrochromic materials
- Composite material
- Smart Robots
- Smart biomaterials Novel nano and micro-devices
- Conductive polymers
- Sensing and actuation.
Magnetic materials enclose a wide range of materials and they have a diversity of industrial application and a share of research is done on these materials to decrease the losses while using. They are used in the distribution and creation of electricity and in most cases it is used in the appliances that use that electricity. In medicine, they are used in body scanners and in a range of applications where they are implanted into the body. Materials used to manipulate the flow of light are optical materials. Technology based on magnetic and optical materials is driving the information age through revolutions in communications.