Physics Research
- Magnetic materials
- Crystallography
- Nanotechnology
- Composites
- Quantum Computing
Research Faculty Details
| S.No | Research Supervisor | Specialization | Awarded University | Year of Award |
|---|---|---|---|---|
| 1. | Dr. B.C. Hemaraju | Crystallography | Mysore University | 2019 |
| 2. | Dr. Raju S.P. | Nanotechnology | Mangalore University | 2018 |
| 3. | Dr. Prasanna A.A. | Magnetic materials | Indian Institute of Technology, Kharagpur | 2014 |
| 4. | Dr. Rangaraju M.R. | Composites | Indian Institute of Technology, Kharagpur | 2005 |
Research Scholars
| S.No | Student Name | Guide Name | Field of Study | Scholar Type | Research Type | Year of Admission |
|---|---|---|---|---|---|---|
| 1. | Chethan H.V. | Dr. Raju S.P. | Laser irradiation and composites | Part Time | Ph.D | 2023 |
| 2. | DhanushChandraGuru | Dr. B.C. Hemaraju | Crystallography | Part Time | Ph.D | 2023 |
| 3. | Poornima P. | Dr. Raju S.P. | Shockwaves and composites | Part Time | Ph.D | 2022 |
| 4. | Sachin S | Dr. Prasanna A A | Magnetic Materials | Full Time | Ph.D | 2020 |
| Contact Person Name | : | Dr. Raju S.P. |
|---|---|---|
| Description | : | Hot air oven, Mag. Stirrer, Chem. Weighing balance, Double distilled water plant. |
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Project Title : AICTE IDEA LAB Sanctioned Year : 2021 Amount : 96.34 Funding/Sanction agency : AICTE Status : Ongoing Principal Investigators : Dr. Srinath M.S. (Coordinator) and Dr. Raju S.P. (Cocoordinator) |
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Student Name : Dr. PRASANNA A. A. SACHIN S., NINGAPPA S Title of the Paper : Superparamagnetic and spin glass characteristics with Griffiths phase in Ni50Mn30−xFexSn20−ySby (1 ≤ x ≤ 4 and 2 ≤ y ≤ 8) Heusler alloys Research Description : Magnetic refrigerant alloys prepared and characterized Faculty Coordinator : Dr. PRASANNA A. A. Reference Link: https://link.springer.com/article/10.1557/s43578-023-01096-5 |
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Student Name : Sachin S, Prasanna A A, Ningappa S Title of the Paper : Near Room Temperature Martensitic transition in Ductile Ni50Mn30-xFexSn20-ySby (1≤x≤4 and 2≤y≤8) Heusler alloys Research Description : Magnetic refrigerant alloys prepared and characterized. Faculty Coordinator : Dr. PRASANNA A. A. Reference Link: https://link.springer.com/article/10.1557/s43578-023-00963-5 |
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Student Name : Sandeep Nambiar S. Murthy B. R. N. , Karthik B. M., Sathyashankara Sharma and A. A. Prasanna Title of the Paper : Investigation on Magnetization, Magnetocalory, Magnetoresistance, and Electric Properties of Ni-Mn Based Heusler Alloy Research Description : Heusler alloy series studied Faculty Coordinator : Dr. PRASANNA A. A. Reference Link: https://www.mdpi.com/2504-477X/7/1/5 |
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Title : Collaboration with Dr Kalyan Kamal of DMRL, Hyderabad Description : Dr. Prasanna A A has research collaboration with Dr Kalyan Kamal, Scientist of DMRL, Hyderabad. Reference Files: |
| Year | Title | Type | Description | Reference |
|---|---|---|---|---|
| PolyVisDynoscope | Patent | The PolyVis DynaScope is a revolutionary device designed for the optical imaging and characterization of transparent, translucent, and reflective materials, addressing key challenges such as glare, flicker, and non-uniform illumination. The device utilizes an advanced back-illumination system comprising 22 Ceiling Square LED Lights arranged in a square pattern, integrated with dual-layer diffusers for uniform light distribution. A 12-volt DC fan ensures effective ventilation and temperature regulation, enabling prolonged usage without performance degradation. The device is compact, portable, and compatible with widely available smartphone cameras, leveraging 720p at 30 FPS settings for flicker-free imaging—a significant milestone in making high-quality material characterization accessible and cost-effective. It features a laser-etched integrated measurement scale for shape and dimension analysis and adjustable color filters for background contrast enhancement, further augmenting its versatility. The PolyVis Dynascope is an innovative and affordable solution for researchers, educators, and industry professionals, facilitating advanced imaging without the need for specialized equipment. It bridges the gap between affordability and performance, empowering users to perform precise visual characterization and material analysis with minimal resource investment. |
https://iprsearch.ipindia.gov.in/PublicSearch/ |
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| Alloy composition and a method of synthesizing alloy composition | Patent |
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| A NANOSTRUCTURED UNIDIRECTIONALLY CONDUCTING POLYMER | Patent | The present invention relates to the field of nanostructures. The invention more particularly relates to a nanostructured unidirectionally conducting polymer comprises: a plurality of polymerized monomers to from a conducting polymer by utilizing a polybasic acid as a dopant and a crosslinking agent; and a phase separable segmented (co)polymer wherein at least one segment comprises a donor segment that forms a complex with an added conducting polymer or a conducting polymer precursor; wherein the first phase separable segmented polymer comprising a donor segment is one of a linear block copolymer, star copolymer, graft copolymer, bottlebrush copolymer or a brush copolymer tethered to a substrate. |
https://scholar.google.com/citations?view_op=view_citation&hl=en&user=R4VA56cAAAAJ&sortby=pubdate&citation_for_view=R4VA56cAAAAJ:ZuybSZzF8UAC |
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| HIGH- PERFORMANCE BIODEGRADABLE POLYMER COMPOSITES FOR STRUCTURAL APPLICATIONS | Patent |
https://scholar.google.com/citations?view_op=view_citation&hl=en&user=R4VA56cAAAAJ&sortby=pubdate&citation_for_view=R4VA56cAAAAJ:N5tVd3kTz84C |
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| Introduction to lightweight composites | Book Chapters | The use of lightweight composites has grown indispensable in diverse industries owing to their capacity to concurrently enhance strength and reduce weight. This article examines many categories of lightweight composites, encompassing polymer-based, metal matrix, ceramic-based, and additive manufacturing (AM)-based composites, in addition to exploring their respective processing methodologies. The primary emphasis lies on lightweight composites composed of polymers, wherein natural fibers are used as reinforcing agents. These composite materials possess the characteristics of biodegradability, cost-effectiveness, and energy efficiency in their processing. Hybrid composites, which involve the amalgamation of distinct reinforcing components, offer an expanded spectrum of qualities, rendering them highly favored across diverse industries. Furthermore, the proliferation of biodegradable materials |
https://www.sciencedirect.com/science/chapter/edited-volume/abs/pii/B9780443188527000051 |
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| Poly Vis Dynascope(Polymer Visual Dynascope) | Patent | Raju S P, Dhanush N, Dimpana T Raj, Chaitra S N |
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