Syed Emad Uddin Shubha

Aspiring Researcher in Quantum Information

Graduate Research Assistant • Division of Computer Science & Engineering, Louisiana State University
B.Sc. in Electrical & Electronic Engineering • Bangladesh University of Engineering and Technology
I apply a first-principled approach to tackle key challenges in quantum computing and communication.

Download CV View Research

Recent Updates

Latest achievements and milestones

NEW

March 2025

Award: I received the Quantum Rising Star Award at the Inaugural Quantum Student Success Summit (QS3) at Rice University! I presented my work through a lighting talk and a poster.

October 2025

Paper Presentation: Presented "Pulse-to-Circuit Characterization of Stealthy Crosstalk Attack on Multi-Tenant Superconducting Quantum Hardware" at ACM Quantum Security Workshop 2025 (co-located with ACM CCS). arXiv preprint: arXiv:2509.11407. This work has been featured in Quantum Zeitgeist, read the article here.

September 2025

Paper Published: "Secure and Efficient n-Qubit Entangled State Teleportation Using Partially Entangled GHZ Channels and Optimal POVM" accepted and published in AVS Quantum Science (Q1-indexed, IF: 3.0). doi: 10.1116/5.0284072.

September 2025

IEEE Quantum Week: Two papers accepted and presented at IEEE International Conference on Quantum Computing and Engineering (QCE 2025):

"Testbed Protocol for Adaptive Superdense Coding in Distributed Quantum Networks", arXiv preprint: arXiv:2504.12565.
"Pulse-Level Simulation of Crosstalk Attacks on Superconducting Quantum Hardware", arXiv preprint: arXiv:2507.16181.

I was awarded the prestigious NSF Student Travel Grant ($1,250) to present my papers and attend the conference. CSE LSU celebrated my research success on LinkedIn.

Current Research

Ongoing projects and investigations

Click to view current works

▼

My current research focuses on quantum hardware security vulnerabilities and robust quantum communication protocols.

Quantum Hardware Security Vulnerabilities: Expanding on pulse-level simulations and characterizations of crosstalk attacks in multi-tenant superconducting quantum hardware, ongoing work involves deeper analysis of stealthy vulnerabilities, development of detection mechanisms, and strategies for mitigating such threats to ensure secure and reliable quantum computing platforms in shared environments.
Robust Quantum Communication Protocols: I am currently working on quantum communication, exploring the roles of quantum correlations to design adaptive error corrections. I have also worked on high-fidelity transmission of a multi-qubit logical state using partially entangled GHZ channels and optimal POVMs for unambiguous state discrimination. These works have potential applications in next-generation quantum repeaters and quantum internet. Additionally, I previously worked on integrating quantum key distribution (QKD) with classical cryptography to create hybrid systems for secure data transmission.

Syed Emad Uddin Shubha

Recent Updates

Selected Works

Pulse-to-Circuit Characterization of Stealthy Crosstalk Attack on Multi-Tenant Superconducting Quantum Hardware

Testbed Protocol for Adaptive Superdense Coding in Distributed Quantum Networks

Secure and efficient n-qubit entangled state teleportation using partially entangled GHZ channels and optimal POVM

Significant improvement of fidelity for encoded quantum bell pairs at long and short-distance communication along with a generalized circuit

Multi-Layered Security System: Integrating Quantum Key Distribution with Classical Cryptography to Enhance Steganographic Security

Enhancing the security of image transmission in Quantum era: a chaos-assisted QKD approach using entanglement

Current Research

Click to view current works

Explore My Creative Side