Research and Projects
Conference Proceedings
- Aoxue. Han, C. Dineen, M. Sakibul Islam, J. V. Moloney, and Viktoriia E. Babicheva, “Symmetry breaking and second-harmonic generation in plasmonic nanoparticle arrays,” in Nonlinear Optics, pp. Tu2B–4, Optica Publishing Group, 2023 [Link]
- A. Romero, M. Sakibul Islam, and Viktoriia E. Babicheva, “Multipole lattice resonances in lossy material,” in CLEO: Fundamental Science, pp. FF3C–3, Optica Publishing Group, 2023 [Link]
- A. Romero, M. Sakibul Islam, J. Toomey, E. Boldt, and Viktoriia E. Babicheva, “Light confinement and multipole lattice resonances with lossy materials,” in 2023 International Applied Computational Electromagnetics Society Symposium (ACES), pp. 1–2, IEEE, 2023 [Link]
- M. Sakibul Islam, Viktoriia E. Babicheva (2023): "Topological Effects in Super-Mossian Nanoparticle Arrays". IEEE ACES 2023 [Link]
- M. Sakibul Islam, "Optical Single Bragg Mirror Filters for Porous Silicon Multilayered Structure in Visible Wavelength Spectrum", 2021 OSA Laser Application Conference, Washington, DC United States, 3-7 October 2021 [Link]
- M. Sakibul Islam, "Analysis of silicon y-splitter subwavelength grating bio-sensor", 2020 2nd International Conference on Sustainable Technologies for Industry 4.0 (STI), 19-20 December, 2020 [Link]
- Md. Sakibul Islam, Masriat Jahan Barsha, "Mach Zehnder Interferometer (MZI) as A Switch for All Optical Network", IEEE International Conference on Innovation in Engineering and Technology (ICIET), 2018 [Link]
Oral Presentations
Title: "Iron Pyrite Antennas for Mid-infrared Thermal Emitters"- Optica Imaging Congress, 16th Aug, 2023 [Conference Link]
Title: "Multipole Coupling in Nanoparticle Lattices"- MRS Spring Meeting, April 26, 2023
Title: "Mie Metasurface with Multipole Resonance in the Lattice", MRS Fall Meeting, Dec 7, 2022
Title: "Lattice Multipole Resonances in Periodic Nanostructures and Metasurface", 32nd The Rio Grande Symposium on Advanced Materials, Oct 24th, 2022 [RGSAM 2022 Program Link]
Poster Papers
Quantum Pattern Matching Using IBM Qiskit, 23rd SQuInT University of New Mexico
There are several classical algorithms for pattern matching like KMP but to har-ness the advantages of quantum there needs a similar kind of algorithm. Re-searchers from IonQ and University of Maryland College Park proposed a quantum algorithm to search pattern in a string or other databases. In this work, an effort was given to verify the algorithm in circuit level using IBM qiskit for a length of 8 string. To avail the quantum performances for pattern searching we implemented a general oracle of grover's algorithm. To proof our circuit developed in Qiskit we plotted the pattern matching with string in histogram.
Read this article online: https://github.com/SakibulIslamSazzad/Quantum-Pattern-Matching
Clean Room Expertise
In the summer of 2023 ( May-August 2023) I worked as a Research Assistant in the Nanometa research group. I worked in CINT, a user facility maintained by Sandia National Lab. I gained hands-on experience in fabrication. Tools I dealt with-
Proficient in: SEM and Ellipsometer
Intermediate: Spin coating, E-beam deposition, optical microscope
Projects
Alice-n-Bob[dot]com [Github Code]
Projcet goal is to create a secure quantum channel between Alice and Bob. To make a secure communication between them E91 and BB84 protocol been implemented. Using E91 protocol, 125 long public key been created with 0 mismatching bits, that mean Eve cant interfere between Alice and Bob contact. Moreover, the whole project follows the lower bound condition of CHSH correlation. Simulation was done by IBM Qiskit.
The project won MIT iQuHACK 2022 competition.
Quantum Wordle Solver [Code]
Developed a quantum version of popular online game, wordle. On this project a quantum algorithm has been developed by creating a Hamming distance between "correct" and "guess_words".
It was submitted to Xanadu QHack 2022
QvsPy, Quantum Sensor virus detection [ QvsPy software package ]
Quantum Sensors have been used to increase Covid-19 detection accuracy. Such an outcome has the potential to decrease the trajectory of the pandemic, potentially decreasing numbers of deaths and patients. The project aims to extend the benefit of high acccuracy of virus detection through quantum sensing to all viruses through creating a library for researchers to use to detect the presence of viruses in input data. Having a simulator of the quantum sensor instead of the full quantum sensor hardware to detect the presence of viruses can save researchers time, effort, and the expense of materials. On a macroscale, the global community benefits from this as the increased accessibility for researchers to understand life-threatening viruses can lead to the increased quality of the global community's health.
https://github.com/QCHackers/NYUAD-2022-QSPirates Github Repo
The project won 2nd Place in New York University Abu Dhabi Campus 2022 Hackathon.
Attended School and Workshop
Qiskit Global Summer School on Machine Learning, July 12- July 23, 2021.[Participation Certificate][Excellence Certificate for solving all home-works]
Year long 2 semester course on Quantum Information Science, IBM and Coding School. [Certificate]
Spring School of Quantum Error Correction, NSF, CIQC. 26th April-30th April, 2021. [Link]
OSA Quantum 2.0 Conference, OSA, 14th-17th September, 2020. [Link]