Aditya Nema

Orcid: 0000-0002-6056-3038

According to our database1, Aditya Nema authored at least 13 papers between 2019 and 2025.

Collaborative distances:
  • Dijkstra number2 of five.
  • Erdős number3 of four.

Timeline

Legend:

Book  In proceedings  Article  PhD thesis  Dataset  Other 

Links

On csauthors.net:

Bibliography

2025
A finite sufficient set of conditions for catalytic majorization.
CoRR, February, 2025

Randomness Efficient Algorithms for Estimating Average Gate Fidelity via k-Wise Classical and Quantum Independence.
Proceedings of the Information Systems Security - 21st International Conference, 2025

2024
High Probability Decoupling via Approximate Unitary Designs and Efficient Relative Thermalization.
IEEE Trans. Inf. Theory, April, 2024

One-Shot Multiple Access Channel Simulation.
Proceedings of the IEEE International Symposium on Information Theory, 2024

2023
Noise is resource-contextual in quantum communication.
CoRR, 2023

Generalized resource theory of purity: one-shot purity distillation with local noisy operations and one way classical communication.
Proceedings of the IEEE International Symposium on Information Theory, 2023

2022
Approximate Unitary Designs Give Rise to Quantum Channels With Super Additive Classical Holevo Capacity.
IEEE Trans. Inf. Theory, 2022

One-shot purity distillation with local noisy operations and one-way classical communication.
CoRR, 2022

2021
One-shot multi-sender decoupling and simultaneous decoding for the quantum MAC.
CoRR, 2021

One-shot inner bounds for sending private classical information over a quantum MAC.
Proceedings of the IEEE Information Theory Workshop, 2021

Novel one-shot inner bounds for unassisted fully quantum channels via rate splitting.
Proceedings of the IEEE International Symposium on Information Theory, 2021

A multi-sender decoupling theorem and simultaneous decoding for the quantum MAC.
Proceedings of the IEEE International Symposium on Information Theory, 2021

2019
Approximate Unitary n<sup>2/3</sup>-Designs Give Rise to Quantum Channels with Super Additive Classical Holevo Capacity.
Proceedings of the 14th Conference on the Theory of Quantum Computation, 2019


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