Email:

    shakila.naznin@ku.ac.bd, ratna_kuece@yahoo.com


    Contact:

    Address:


Shakila Naznin
Associate Professor

PhD student: Electrical and Electronic Engineering, University of Nottingham, UK (2016-present)

M.Sc.: Electronics and Communication Engineering, Khulna University, Bangladesh (2012-2014)

B.Sc.: Electronics and Communication Engineering, Khulna University, Bangladesh (2005-2009)

H.Sc. Science (2004)

S.Sc. Science (2002)

Optics and Photonics (Optical spectroscopy, picosecond laser ultrasonics,  plasmonics, super-resolution imaging, optical sensors, optical switches, optical filters, all optical logic gates, phonic crystal fiber & applications, fiber optics)

Current Research Project/Collaboration

SL Title Research Role Awarded Date Completion Date Funding Agency
No Research Project Available

coming soon...

Supervision

SL Title Degree Role Start Date End Date
1 Analysis of the effect of air hole diameter and lattice pitch on optical properties for hexagonal photonic crystal fiber Bachelor Co-Supervisor 09/02/2014 09/02/2015
2 Design and analysis of dispersion flattened low loss photonic crystal fiber Bachelor Co-Supervisor 17/04/2015 17/04/2016
3 Design and analysis of dispersion flattened low loss photonic crystal fiber Bachelor Co-Supervisor 17/04/2015 17/04/2016
4 Design and optimization of optical add-drop filter and sensor using 2D photonic crystal Bachelor Supervisor 02/05/2015 02/05/2016
5 Performance Study of adaptive and fixed filters for reducing power line interference from ECG signal Bachelor Co-Supervisor 17/09/2011 17/09/2012
6 Performance Study of adaptive and fixed filters for reducing power line interference from ECG signal Bachelor Co-Supervisor 17/09/2011 17/09/2012
7 Design and implementation of robotic vehicles & robotic vision system Bachelor Supervisor 28/12/2011 19/09/2012
8 Designing a focused intense light beam by micro-patterning Fresnel zone plate inside multimode optical fiber Bachelor Co-Supervisor 28/02/2014 28/01/2015
9 Comparative study on resource allocation based on barrier method and a cost function oriented method for heterogeneous multiuser cognitive radio netweork Bachelor Co-Supervisor 17/11/2012 17/11/2013
10 Design and simulation of all optical logic gates based on 2D photonic crystal fiber Bachelor Supervisor 28/01/2014 28/01/2015
11 Analysis of target detection performance and reduction of interrupting signals at the receiver of coherent MIMO Radar using space time adaptive processing Bachelor Supervisor 20/11/2012 20/11/2013

coming soon...

1.

  ØFuentes-Domínguez, R.; Naznin, S.; La Cavera III, S.; Cousins, R.; Pérez-Cota, F.; Smith, R. J.; Clark, M. Polarization-Sensitive Super-Resolution Phononic Reconstruction of Nanostructures. ACSPhotonics 2022, Acsphotonics.

Ø  Fuentes-Domínguez R, Naznin S, Marques L, Pérez-Cota F, Smith RJ, Clark M. Characterising the size and shape of metallic nano-structures by their acoustic vibrations. Nanoscale. 2020;12(26):14230–6.

Ø  Pérez-Cota F, III SLC, Naznin S, Fuentes-Domínguez R, Smith RJ, Clark M. Apparent attenuation by opto-acoustic defocus in phonon microscopy. Photoacoustics.

Ø  Pérez-Cota F, Fuentes-Domínguez R, La Cavera S, Hardiman W, Yao M, Setchfield K, Moradi E, Naznin S, Wright A, Webb K.F, Huett A, Friel C., Sottile V., Elsheikha H.M, Smith RJ, Clark M. Picosecond ultrasonics for elasticity-based imaging and characterization of biological cells. Journal of Applied Physics. 2020 Oct 28;128(16):160902.

Ø  Fuentes-Domínguez R, Pérez-Cota F, Naznin S, Smith RJ, Clark M. Super-resolution imaging using nano-bells. Scientific Reports. 2018 Nov 6;8(1):16373.

 

Ø  Fuentes-Domínguez R, Pérez-Cota F, Naznin S, Marques L, Smith RJ, Clark M. Nano ultrasonic measurements of nanoparticles. In Vermont, USA; 2019 [cited 2021 Mar 30]. p. 020027.

Ø  Naznin S, Sher MS. Design of a lithium niobate-on-insulator-based optical microring resonator for biosensing applications. Optical Engineering. 2016 Aug;55(8):087108.

Ø  Naznin S, Mandal R, Sarker S, Alam MT, Ahsan MS, Ali MY. Design and optimization of optical add-drop filter and sensor using 2D photonic crystal. In2016 3rd International Conference on Electrical Engineering and Information Communication Technology (ICEEICT) 2016 Sep 22 (pp. 1-5). IEEE.

Ø  Naznin S, Karim ST, Tisa RT, Farhad MA. Design and simulation of all optical logic gates based on 2D photonic crystal fiber. In2015 International Conference on Electrical Engineering and Information Communication Technology (ICEEICT) 2015 May 21 (pp. 1-5). IEEE.

Ø   Rahman AT, Mahmud SH, Biswas TK, Naznin S. Target detection performance of coherent MIMO radar using space time adaptive processing. In2014 International Conference on Informatics, Electronics & Vision (ICIEV) 2014 May 23 (pp. 1-5). IEEE.

VLSI Circuits & Design

Course Content:

VLSI design methodology: Top-down design approach, technology trends, full custom design and semicustom design, HDL, RTL design, EDA tools.

MOS technology: Introduction to Microelectronics and MOS Technology, Basic Electrical Properties and Circuit design processes of MOS and Bi-CMOS Circuits, MOS, nMOS, CMOS inverters, pass transistor and transmission gates, DC and transient characteristics.

Overview of fabrication process: nMOS, pMOS, CMOS, Bi-CMOS process. nMOS and CMOS layout: Color plate Stick diagram, and design rules.

CMOS circuit characteristics: Resistance and capacitance, rise and fall time, power estimation.

Design: Bi-CMOS circuits, Shifter, an ALU Sub-System, adder, counter, multipliers, multiplexer. Data Path and memory structures, Buffer circuit design, DCVS Logic.

Design and Test-Ability: Circuit partitioning, Floor planning and placement, Routing, Practical Aspects of Design Tools and Test-Ability MOS Design, Behavioral Description, Structural Description, Physical Description, Design Verification

Off-Chip Connections: Pad design, I/O Architecture, Packages.

Running

Digital Electronics

Course Content:

Logic Gates: Diode Logic Gates, Transistor Switches, Transistor Gates, MOS Gates.
Logic Families: TTL, ECL, IIL and CMOS Logic with operation, details. Propagation Delay, Product and Noise Immunity. Open Collector and high impedance Gates.

Electronic Circuits for Flip-Flop, Counter and Register. Memory System, PLAs and PLDs,

D/A Converters with applications. S/H Circuits, LED, LCD and optically coupled oscillators. Nonlinear application of OP AMP, Analog Switches.


Running

Nanophotonics

Running

  • VLSI Circuits & Design
  • Digital Electronics
  • Nanophotonics