DEPARTMENT OF PHYSICS

Name : Dr. Sudin Ganguly

Designation : Assistant Professor
Department : Physics
Contact No. : +91 8638667458
Email : : sudinganguly@gmail.com

Qualifications

Ph.D. (Indian Institute of Technology Guwahati)
M.Phill Physics(Ramakrishna Mission Vivekandanda University)
M.Sc. in Physics (West Bengal State University)

Areas of Interest/Specialization

Quantum transport in nanoscale systems, Graphene and other topological materials, 2D
materials, thermoelectric phenomena, ac driven transport, transport in hybrid junctions
(e.g. superconductor-metal junctions etc.), fractal network, spin-valve systems, NEGF
formalism
Topoelectrical circuits, non-Hermitian physics, antiferromagnetic spintronics

Experiences

1. Visiting Research Fellow
Indian Statistical Institute Kolkata, 13/1/2020 – 30/11/2021.
2. Visiting Faculty
Indian Institute of Information Technology Bhagalpur, 7/1/2019 – 31/12/2019.
3. Guest Lecturer
Vidyasagar Evening College, (2010 – 11, 2011 – 12).
4. Associate Warden, Boys’ Hostel-1, IIIT Bhagalpur
5. Faculty In-Charge of Common Activity Centre, IIIT Bhagalpur
6. Faculty In-Charge of Sports, IIIT Bhagalpur
7. Teaching Assistanship: General Physics Laboratory, Numerical methods and computer
programming, Indian Institute of Technology Guwahati

Refereed Journal Publications

1. Sudin Ganguly and SK Maiti, “Electrical analogue of one-dimensional and
quasi-one-dimensional Aubry–Andr´e–Harper lattices”, Scientific Reports 13 (1),
13633 (2023).
2. S Roy, S Ganguly, SK Maiti, “Interplay between hopping dimerization and quasiperiodicity on flux-driven circular current in an incommensurate Su–Schrieffer–Heeger
ring”, Scientific Reports 13 (1), 4093 (2023).
3. Sayan Mondal, Sudin Ganguly, and Saurabh Basu, “Topology and applications
of 2D Dirac and semi-Dirac materials” Physical Sciences Reviews, https://doi.org/10.1515/psr2022-0118, (2022).
4. D Halder, S Ganguly, S Basu, “Properties of the non-Hermitian SSH model: role
of symmetry”, Journal of Physics: Condensed Matter 35 (10), 105901 (2022).
5. Sudin Ganguly, Souvik Roy, and Santanu K. Maiti, “Transport characteristics
of a PT-symmetric non-Hermitian system: effect of environmental interaction”,
The European Physical Journal Plus 137, 780 (2022).
6. Kalol Mondal, Sudin Ganguly, and Santanu K. Maiti, “Efficient current rectification
in driven acenes”, Physical Chemistry Chemical Physics 24 (46), 28436 (2022).
7. Sudin Ganguly, and Santanu K. Maiti, “Strain-induced thermoelectricity in
pentacene”, Physical Chemistry Chemical Physics 24 (38), 23679-23689 (2022).
8. Kalol Mondal, Sudin Ganguly, and Santanu K. Maiti, “Spin-dependent transport
in a driven non-collinear antiferromagnetic fractal network”, Journal of Physics:
Condensed Matter 34, 295802 (2022).
9. Joydeep Majhi, Sudin Ganguly, and Santanu K. Maiti, “Enhanced current
rectification in graphene nanoribbons: effects of geometries and orientations of
nanopores”, Nanotechnology 33, 255704 (2022).
10. Suvendu Chakraborty, Sudin Ganguly, and Santanu K. Maiti, “Thermoelectric
properties of a diamond ribbon subjected to a transverse magnetic field”, Europhysics
Letters 136, 37003 (2021).
11. Kallol Mondal, Sudin Ganguly, and Santanu K. Maiti, “Possible route to efficient
thermoelectric applications in a driven fractal network”, Scientific Reports 11,
17049 (2021).
12. Sudin Ganguly and Santanu K. Maiti, “Selective spin transmission through a
driven quantum system: A new prescription”, Journal of Applied Physics 129,
123902 (2021).
13. Sudin Ganguly and Santanu K. Maiti, “Favorable thermoelectric performance
in a Rashba spin-orbit coupled ac-driven graphene nanoribbon”, Carbon 172, 302
(2021).
14. Sudin Ganguly and Santanu K. Maiti, “A new prescription to achieve a high
degree of spin polarization in a spin-orbit coupled quantum ring: Efficient engineering
by irradiation”, Journal of Physics: Condensed Matter 33, 145305 (2021).

15. Sudin Ganguly and Santanu K. Maiti, “Electronic transport through a driven
quantum wire: possible tuning of junction current, circular current and induced
local magnetic field”, Journal of Physics: Condensed Matter 33, 045301 (2020).
16. Sudin Ganguly and Santanu K. Maiti, “An ordered-disordered separated graphene
nanoribbon: high thermoelectric performance” , Journal of Physics D: Applied
Physics 54, 025301 (2020).
17. Sudin Ganguly and Santanu K. Maiti, “Thermoelectricity in graphene nanoribbons:
Structural effects of nanopores”, Superlattices and Microstructures 136, 106264
(2019).
18. Sudin Ganguly and Santanu K. Maiti, “Unconventional charge and spin-dependent
transport properties of a graphene nanoribbon with line-disorder ”, Europhysics
Letters 124(5), 57003 (2018).
19. Sudin Ganguly and Santanu K. Maiti, “Controlled engineering of spin-polarized
transport properties in a zigzag graphene nanojunction”, Europhysics Letters 124(1),
17005 (2018).
20. Sudin Ganguly, Saurabh basu, and Santanu K. Maiti, “Interface sensitivity on
spin transport through a three-terminal graphene nanoribbon”, Superlattices and
Microstructures 120, 650 (2018).
21. Priyanka Sinha, Sudin Ganguly, and Saurabh Basu, “Analytic and numeric
computation of edge states and conductivity of a Kane-Mele nanoribbon”, Physica
E: Low-dimensional Systems and Nanostructures 103, 314 (2018).
22. Sudin Ganguly and Saurabh Basu, “Magnetic adatoms in two and four terminal
graphene nanoribbons: A comparison between their spin polarized transport”, Physica
E: Low-dimensional Systems and Nanostructures 98, 174 (2018).
23. Sudin Ganguly and Saurabh Basu, “Adatoms in graphene nanoribbons: spintronic
properties and the quantum spin Hall phase”, Materials Research Express 4, 11
(2017).
24. Sudin Ganguly and Saurabh Basu, “Conductance properties of six terminal
graphene nanoribbons in presence of a magnetic field: Integer quantum Hall effect
revisited”, Journal of Electromagnetic Waves and Applications 31, 18 (2017)
(Special Issue: The Current Trends of Graphene Technology).
25. Sudin Ganguly and Saurabh Basu, “Spin Hall conductance in a Y-shaped
junction device in presence of tunable spin-orbit coupling”, Physica E: Low-dimensional
Systems and Nanostructures 90, 131 (2017).
26. Sudin Ganguly and Saurabh Basu, “Interplay of Rashba spin orbit coupling and
disorder in the conductance properties of a four terminal junction device”, The
European Physical Journal B 89, 103 (2016).
27. Sudin Ganguly and Saurabh Basu, “Anisotropic quantum transport in two dimension
– hints of emergence of a metallic behaviour”, The European Physical Journal B
88, 96 (2015).
28. Sudin Ganguly and Santanu K. Maiti, “High figure of merit in an ac driven
graphene nanoribbon”, Journal of Physics: Conference Series 1579 (1), 01200
(2020).
29. Sudin Ganguly and Santanu K. Maiti, “A comparative study of spin polarization
between square and triangular antidots in graphene nanoribbon”, AIP conference
proceedings 2072(1), 020006 (2019).

30. Sudin Ganguly and Saurabh Basu, “Spin Hall conductance in Y-shaped junction
devices”, Journal of Physics: Conference Series 807, 082003 (2017).
31. Sudin Ganguly and Saurabh Basu, “Spin dependent disorder in a junction device
with spin orbit couplings”, Journal of Physics: Conference Series 759, 012028
(2016).
32. Priyadarshini Kapri, Sudin Ganguly and Saurabh Basu, “Tunneling conductance
through normal metal-superconductor junctions: effects of Rashba spin orbit coupling
and magnetic field”, Journal of Physics: Conference Series 759, 012031 (2016).

Achievements:

• Qualified National Eligibility Test (NET-LS) 2014
• Qualified Graduate Aptitude Test in Engineering (GATE) 2012
• Qualified Joint Entrance Screening Test (JEST) 2011

Available Programmes:

• B.Sc. Physics
  

• M.Sc. Physics

• Ph.D. Physics