Ipr gandhinagar

LinkedIn and 3rd parties use essential and non-essential cookies to provide, secure, analyze and improve our Services, and to show you relevant ads (including professional and job ads) on and off LinkedIn. Learn more in our Select Accept to consent or Reject to decline non-essential cookies for this use. You can update your choices at any time in your Studies on Multi-Mode Erbium Doped Fiber Amplifier JOURNAL 1. A. Gaur and V. Rastogi, "Design and Analysis of Annulus Core Few Mode EDFA for Modal Gain Equalization”, IEEE Photonics Technology Letter, Vol. 28, 2016. 2. V. Rastogi, A. Gaur, P. Aschieri, and B. Dussardier, "Mode group specific amplification length in an asymmetric LPG assisted few-mode EDFA”, Optics Communications, vol. 382, 2017. 3. A. Gaur, and V. Rastogi, "Design and Analysis of High-Power Segmented-Core… Show more Studies on Multi-Mode Erbium Doped Fiber Amplifier JOURNAL 1. A. Gaur and V. Rastogi, "Design and Analysis of Annulus Core Few Mode EDFA for Modal Gain Equalization”, IEEE Photonics Technology Letter, Vol. 28, 2016. 2. V. Rastogi, A. Gaur, P. Aschieri, and B. Dussardier, "Mode group specific amplification length in an asymmetric LPG assisted few-mode EDFA”, Optics Communications, vol. 382, 2017. 3. A. Gaur, and V. Rastogi, "Design and Analysis of High-Power Segmented-Core Trench-Assisted Yb-free Erbium Doped Fiber Amplifier" Optics and Laser Technology, Vol. 95, 2017. 4. A. Gaur, G. Kumar and V. Rastogi, "Dual-core few mode EDFA for amplification ...

Institute for Plasma Research (IPR) is an autonomous institute under the Department of Atomic Energy (DAE), Government of India. It is exclusively devoted to basic research in plasma sciences and the development of technological applications. The major thrust is in magnetic confinement fusion and plasma-assisted material processing. About IPR The Institute for Plasma Research (IPR) was established in 1986 as an autonomous institute under the Department of Science and Technology (DST) with a mandate to pursue research in plasma science and technology. The institute grew rapidly and came under the administrative umbrella of the Department of Atomic Energy (DAE) in 1995. This institute is largely involved in theoretical and experimental studies in plasma science including basic plasma physics, magnetically confined hot plasmas and plasma technologies for industrial application. The institute owns two operational tokamaks (a machine for controlling thermonuclear fusion) - ADITYA and Steady State Tokamak (SST)-1. FCIPT, ITER-India and CPP-IPR, located in Gandhinagar and Guwahati are three divisions under IPR. Divisions FCIPT, Gandhinagar The ITER-India, Gandhinagar ITER is an experimental fusion reactor facility under construction in Cadarache, South of France to prove the feasibility of nuclear fusion for a future source of energy. ITER partners are the European Union, China, India, Japan, South Korea, Russia and the United States of America. European Union being the host part...

SST-1 Steady State Superconducting Tokamak Location Affiliation Technical specifications Major radius 1.1m (3ft 7in) Minor radius 0.2m (7.9in) 3T (30,000G) History Year(s) of operation 2005–present Links Website .dae .gov .in /node /255 SST-1 (or Steady State Superconducting Tokamak) is a The SST-1 project helped India become capable of conceptualizing and making a fully functional Next stage of the SST-1 mission, the SST-2, dubbed as 'DEMO', has already been initiated. History [ ] The first talks about SST Mission started in 1994. The technical details and mechanical drawings of the system were finalized in 2001. The machine was fabricated by 2005. It was fully commissioned in 2013. And by 2015, produces repeatable plasma discharges up to ~ 500 ms with plasma currents in excess of 75000 A at a central field of 1.5 T. As of Dec 2015 it is having upgrades including to the [ needs update] Objectives [ ] Traditionally the tokamaks have operated with a `transformer' action- with plasma acting as a secondary, thus having the vital `self-generated' magnetic field on top of the `externally generated' (toroidal and equilibrium) fields. This is a pretty good scheme in which creation, current-drive and heating are neatly integrated and remained a choice of the fusion community for many years until the stage came to heat the plasma to multi-keV temperatures. Heating was then accomplished separately by radio frequency (RF) waves and/or energetic Subsequently, excellent control got est...

Facilitation Centre for Industrial Plasma Technologies Institute for Plasma Research Gandhinagar Name : Dr. Mukesh Ranjan Qualification : PhD (Physics) Designation : Scientific Officer - G For Complete CV Contact Phone : 079 - 23269013 E-mail ID: [email protected] Field of Interest • Nano-patterning using ion beams • Nanoparticles growths • Plasmonics and bio-sensors • Plasma based space applications • Industrial PVD coatings • Plasma Diagnostics Publications • "Local flux governing mechanism for the self-assembly of silver nanoparticles on ripple patterned templates" M. Ranjan, S. Numazawa, S. Mukherjee , Material Research Express 1(2014) 015038 . • "Simulation and measurement of solar harvesting enhancement of silver plasmonic nano-particles on GaSb nano-dots" Lorenzo Rosa, Mukesh Ranjan, Mukul Bhatnagar, Daryoush Mortazavi, Subroto Mukherjee, Saulius Juodkazisa, Journal of Photonics 2014 (2014) 1. • "An analytic approach to modeling the optical response of anisotropic nanoparticle arrays" L. Persechini, R. Verrei, N Mcalinden, J. J. Wang, M. Ranjan, S. Facsko, I. V. Shvets, J F McGilp , Journal of Physics Condensed Matter 26(2014) 145302. • "Synthesis of SiGe layered structure in single crystalline Ge substrate by low energy Si ion implantation" S. A. Mollick, D. Ghose, S. R. Bhattacharyya, S. Bhunia, N. R. Ray, M. Ranjan, Vacuum 101 (2014) 387. • "Compositional Control of Co-deposited TiAl Film using Dual Magnetron System" R. Rane , M. Ranjan , P. Joshi, S. Mukherjee,...

Home Facilitation Centre for Industrial Plasma Technologies ( FCIPT) links industries with Institute for Plasma Research ( IPR), Gandhinagar, India. The knowledge - base in plasma sciences and associated technologies is exploited to generate advanced and non conventional plasma based technologies for material processing and environmental remediation. IPR is an autonomous institute under the Department of Atomic Energy ( DAE), Govt. of India. It is exclusively devoted to basic research in plasma sciences and development of technological applications. The major thrust is in magnetic confinement fusion and plasma assisted material processing. FCIPT takes up development of plasma processing technologies from concept to commercialization and promotes awareness of technology through Technology transfer, Newsletters and Direct marketing. Recent Technologies Transferred by FCIPT, IPR Transfer of Nanopowder Production Technology to M/s. Vishal Engineers & Galvanizers Pvt Ltd, Ahmedabad Transfer of Plasma Pyrolysis Technology for disposing organic waste to M/s. G.P. Green Energy Systems Pvt Ltd, Kolkata Transfer of Atmospheric pressure inline plasma treatment technology for textiles to M/s. Arshad Electronics Pvt Ltd, Mumbai Transfer of Plasma Pyrolysis Technology for disposing organic waste to M/s. Bhakti Energy, Rajkot Transfer of Plasma based Nano Particle Production technology to M/s. Plasma and Vacuum Technologies, Ahmedabad Transfer of Plasma Pyrolysis Technology for disposing...

The Institute for Plasma Research (IPR) is an autonomous History [ ] In 1982, the In 1986, the PPP evolved into the autonomous Institute for Plasma Research under the Department of Science and Technology. With the commissioning of [ clarification needed] Due to this, the institute grew rapidly and came under the Location [ ] The Institute for Plasma Research is located on the banks of the Remote campuses [ ] • • • ITER-India Facilitation Centre for Industrial Plasma Technologies (FCIPT) [ ] The It has national and international industries in its clients base such as FCIPT has developed technologies related to waste remediation and recovery of energy from waste, surface hardening and heat treatment technologies such as Recently, ion irradiation induced patterning of semiconductor materials and amorphous solids has been a hot topic of research. To this end, a Industries can directly contact FCIPT for their contract research needs, development of specialized plasma processing equipment and power sources, technology development, application development, material characterization services, etc. Center of Plasma Physics - Institute for Plasma Research (CPP-IPR) [ ] History [ ] In pursuance of the national policy recognising plasma physics as one of the thrust areas of present-day research, the government of Assam established the Centre of Plasma Physics in 1991 as an autonomous research institute to pursue basic research in theoretical as well as experimental plasma physics and ...

Institute for Plasma Research (IPR) is located in a peaceful and green campus on the bank of river Sabarmati, near Indira Bridge, Gandhinagar, Gujarat. It was established in 1986 as an autonomous institute under the Department of Science and Technology (DST) with a mandate to pursue research in Plasma Science and technology. The institute grew rapidly and came under the administrative umbrella of the Department of Atomic Energy (DAE) in 1995. Over the years, IPR has developed competence in advanced fields like Theoretical Plasma Physics, Computer Modeling and Simulation, Superconducting magnets and Cryogenics, Ultra High Vacuum technologies, sophisticated Plasma Diagnostic systems, RF and Neutral Beam Heating systems, High Voltage Engineering systems, Pulsed Power systems, Computer based Data Acquisition and Control systems besides, Industrial, Environmental and strategic plasma applications. A multi-disciplinary team of around 400 scientists and technologists carries out these tasks. ITER will be built mostly through in-kind contributions by the seven partners, meaning they will build their share of ITER components through an appropriately formed Domestic Agency (DA) and industries and deliver them to ITER for final assembly of the device. India will be contributing, like other partners except the host EU, about 9.1% of the ITER construction cost (EU pays about 45%). Most of this will be in the form of components made by the Indian industry and delivered to ITER.Only a sm...

Facilitation Centre for Industrial Plasma Technologies Institute for Plasma Research Gandhinagar Name : Dr. Mukesh Ranjan Qualification : PhD (Physics) Designation : Scientific Officer - G For Complete CV Contact Phone : 079 - 23269013 E-mail ID: [email protected] Field of Interest • Nano-patterning using ion beams • Nanoparticles growths • Plasmonics and bio-sensors • Plasma based space applications • Industrial PVD coatings • Plasma Diagnostics Publications • "Local flux governing mechanism for the self-assembly of silver nanoparticles on ripple patterned templates" M. Ranjan, S. Numazawa, S. Mukherjee , Material Research Express 1(2014) 015038 . • "Simulation and measurement of solar harvesting enhancement of silver plasmonic nano-particles on GaSb nano-dots" Lorenzo Rosa, Mukesh Ranjan, Mukul Bhatnagar, Daryoush Mortazavi, Subroto Mukherjee, Saulius Juodkazisa, Journal of Photonics 2014 (2014) 1. • "An analytic approach to modeling the optical response of anisotropic nanoparticle arrays" L. Persechini, R. Verrei, N Mcalinden, J. J. Wang, M. Ranjan, S. Facsko, I. V. Shvets, J F McGilp , Journal of Physics Condensed Matter 26(2014) 145302. • "Synthesis of SiGe layered structure in single crystalline Ge substrate by low energy Si ion implantation" S. A. Mollick, D. Ghose, S. R. Bhattacharyya, S. Bhunia, N. R. Ray, M. Ranjan, Vacuum 101 (2014) 387. • "Compositional Control of Co-deposited TiAl Film using Dual Magnetron System" R. Rane , M. Ranjan , P. Joshi, S. Mukherjee,...

Institute for Plasma Research (IPR) is an autonomous institute under the Department of Atomic Energy (DAE), Government of India. It is exclusively devoted to basic research in plasma sciences and the development of technological applications. The major thrust is in magnetic confinement fusion and plasma-assisted material processing. About IPR The Institute for Plasma Research (IPR) was established in 1986 as an autonomous institute under the Department of Science and Technology (DST) with a mandate to pursue research in plasma science and technology. The institute grew rapidly and came under the administrative umbrella of the Department of Atomic Energy (DAE) in 1995. This institute is largely involved in theoretical and experimental studies in plasma science including basic plasma physics, magnetically confined hot plasmas and plasma technologies for industrial application. The institute owns two operational tokamaks (a machine for controlling thermonuclear fusion) - ADITYA and Steady State Tokamak (SST)-1. FCIPT, ITER-India and CPP-IPR, located in Gandhinagar and Guwahati are three divisions under IPR. Divisions FCIPT, Gandhinagar The ITER-India, Gandhinagar ITER is an experimental fusion reactor facility under construction in Cadarache, South of France to prove the feasibility of nuclear fusion for a future source of energy. ITER partners are the European Union, China, India, Japan, South Korea, Russia and the United States of America. European Union being the host part...

SST-1 Steady State Superconducting Tokamak Location Affiliation Technical specifications Major radius 1.1m (3ft 7in) Minor radius 0.2m (7.9in) 3T (30,000G) History Year(s) of operation 2005–present Links Website .dae .gov .in /node /255 SST-1 (or Steady State Superconducting Tokamak) is a The SST-1 project helped India become capable of conceptualizing and making a fully functional Next stage of the SST-1 mission, the SST-2, dubbed as 'DEMO', has already been initiated. History [ ] The first talks about SST Mission started in 1994. The technical details and mechanical drawings of the system were finalized in 2001. The machine was fabricated by 2005. It was fully commissioned in 2013. And by 2015, produces repeatable plasma discharges up to ~ 500 ms with plasma currents in excess of 75000 A at a central field of 1.5 T. As of Dec 2015 it is having upgrades including to the [ needs update] Objectives [ ] Traditionally the tokamaks have operated with a `transformer' action- with plasma acting as a secondary, thus having the vital `self-generated' magnetic field on top of the `externally generated' (toroidal and equilibrium) fields. This is a pretty good scheme in which creation, current-drive and heating are neatly integrated and remained a choice of the fusion community for many years until the stage came to heat the plasma to multi-keV temperatures. Heating was then accomplished separately by radio frequency (RF) waves and/or energetic Subsequently, excellent control got est...