Assistant Professor, Department of Physics, IIIT Bhopal

Dr. Deep Chandra Joshi

Ph.D | Physics

Welcome to my research journey! As an experimental material scientist, I am passionate about exploring the fascinating world of advanced materials. My work delves into innovative areas such as multiferroics, spinels, and metal di-fluorides, where the interplay of magnetic and electric properties opens up exciting possibilities. I also investigate magnetic quasicrystals and the unique properties of perovskites and relaxor ferroelectrics, contributing to developing next-generation technologies.

I focus on high-k dielectrics, Mott insulators, and the intriguing dynamics of two-phase composites. My research includes the growth and characterization of nanomaterials, where I strive to unlock new functionalities and applications. Join me in the exploration of these cutting-edge materials that hold the promise of transformative advancements in various fields!

Important Notification: PhD admission started at IIIT Bhopal

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Qualifications and Experiences

My journey into the world of multiferroics and next-generation technologies.

Title : Dielectric And Magnetic Studies Of Wide-bandgap Mott Insulators And Their Composites
P.hD awarded in 2018 from Indian Institute of Technology Guwahati (IIT G)
Postdoctoral at Angstrom laboratory, Uppsala University, Sweden.

Postdoctoral at Charles University, Prague, Czech Republic.

Postdoctoral at Morgan State University, Maryland, USA.

Research Activities

Join me on a journey through the innovative world of experimental materials science, where we explore multiferroics, spinels, and more to unlock next-generation technologies.

50+

International Research Articles

Advanced Materials Expertise

Exploring innovative materials like multiferroics and perovskites for next-generation technology solutions.

A close-up view of electronic components on a circuit board, including capacitors, inductors, and semiconductor chips. The components are densely packed, with visible QR codes on some of the parts. The circuit board is part of a larger electronic device with a metallic enclosure.
A close-up view of electronic components on a circuit board, including capacitors, inductors, and semiconductor chips. The components are densely packed, with visible QR codes on some of the parts. The circuit board is part of a larger electronic device with a metallic enclosure.
The image features an electronic circuit board placed on a metallic surface with perforated holes. Blue terminal connectors and cylindrical capacitors are visible on the green board. Nearby, an orange fiber optic cable is coiled beside a metal component encased in a transparent cover. The setting appears to be a technical or engineering workspace.
The image features an electronic circuit board placed on a metallic surface with perforated holes. Blue terminal connectors and cylindrical capacitors are visible on the green board. Nearby, an orange fiber optic cable is coiled beside a metal component encased in a transparent cover. The setting appears to be a technical or engineering workspace.
Research and Development

Innovating through experimental techniques to understand magnetic and electric properties of advanced materials.

Material Characterization

Analyzing the properties of high-k dielectrics and their applications in advanced technological developments.

Research Areas

Exploring advanced materials for next-generation technology applications.

Magnetic Properties

Investigating multiferroics and their unique interactions.

HIgh-k Dielectrics

Developing high-k dielectrics and Mott insulators.

Quasicrystals

Examining magnetic quasicrystals and their approximants.

THz Spectroscopy

Quench Switching in Colinear Antiferromagnets

Contact details:

Exploring advanced materials for next-generation technologies.

📧 email: deepchandra.joshi@iiitbhopal.ac.in and djoshi835@gmail.com