APA (7th ed.) Citation

Sharma, V. A., & Bitragunta, S. (2026). High-Level Fault-Tolerant Abstractions for Quantum-Gate Circuit Design and Synthesis: PQC and Topological Anyon Architectures (TQC) for Categorical Computations in SU(2)_3 TQFT and D-brane Stability.

Chicago Style (17th ed.) Citation

Sharma, Vaidik A., and Sainath Bitragunta. High-Level Fault-Tolerant Abstractions for Quantum-Gate Circuit Design and Synthesis: PQC and Topological Anyon Architectures (TQC) for Categorical Computations in SU(2)_3 TQFT and D-brane Stability. 2026.

MLA (9th ed.) Citation

Sharma, Vaidik A., and Sainath Bitragunta. High-Level Fault-Tolerant Abstractions for Quantum-Gate Circuit Design and Synthesis: PQC and Topological Anyon Architectures (TQC) for Categorical Computations in SU(2)_3 TQFT and D-brane Stability. 2026.

Warning: These citations may not always be 100% accurate.