Topological Quantum Computing: Majorana Fermions and Beyond

Debanksh Guha; Meghansh Govil; Suraj Kumar Saw; Tiansheng Yang; Rajkumar Singh Rathore

doi:10.1007/978-981-96-6906-6_6

Topological Quantum Computing: Majorana Fermions and Beyond

Debanksh Guha
, Meghansh Govil
, Suraj Kumar Saw
, Tiansheng Yang^*
, Rajkumar Singh Rathore

^*Awdur cyfatebol y gwaith hwn

Allbwn ymchwil: Pennod mewn Llyfr/Adroddiad/Trafodion Cynhadledd › Cyfraniad mewn cynhadledd › adolygiad gan gymheiriaid

Crynodeb

Topological quantum computing (TQC) represents a reliable approach to overcoming the fundamental approach obstacles faced by classical quantum computers, particularly in the paradigm of error handling and qubit manipulation. Quantum computers are known for their ability to solve complex problems which ordinary computers are not able to solve since quantum computers are highly susceptible to environmental noise and quantum decoherence. TQC comes in clutch in this situation by encoding qubits in the topological properties of certain quantum systems, rendering them inherently resistant to local disturbances. One of the most notable candidates for topologically protected qubits is the Majorana Fermion, a particle that can encode quantum information through braiding process which provides a natural resistance to errors.

Iaith wreiddiol	Saesneg
Teitl	Innovative Computing and Communications - Proceedings of ICICC 2025
Golygyddion	Aboul Ella Hassanien, Sameer Anand, Ajay Jaiswal, Prabhat Kumar
Cyhoeddwr	Springer Science and Business Media Deutschland GmbH
Tudalennau	67-79
Nifer y tudalennau	13
ISBN (Argraffiad)	9789819669059
Dynodwyr Gwrthrych Digidol (DOIs)	https://doi.org/10.1007/978-981-96-6906-6_6
Statws	Cyhoeddwyd - 1 Hyd 2025
Digwyddiad	8th International Conference on Innovative Computing and Communication, ICICC 2025 - New Delhi, India Hyd: 14 Chwef 2025 → 15 Chwef 2025

Cyfres gyhoeddiadau

Enw	Lecture Notes in Networks and Systems
Cyfrol	1435 LNNS
ISSN (Argraffiad)	2367-3370
ISSN (Electronig)	2367-3389

Cynhadledd

Cynhadledd	8th International Conference on Innovative Computing and Communication, ICICC 2025
Gwlad/Tiriogaeth	India
Dinas	New Delhi
Cyfnod	14/02/25 → 15/02/25

Mynediad at Ddogfen

10.1007/978-981-96-6906-6_6

Ffeiliau eraill a chysylltiadau

Dolen i’r cyhoeddiad yn Scopus

Dyfynnu hyn

Guha, D., Govil, M., Saw, S. K., Yang, T., & Rathore, R. S. (2025). Topological Quantum Computing: Majorana Fermions and Beyond. Yn A. E. Hassanien, S. Anand, A. Jaiswal, & P. Kumar (Gol.), Innovative Computing and Communications - Proceedings of ICICC 2025 (tt. 67-79). (Lecture Notes in Networks and Systems; Cyfrol 1435 LNNS). Springer Science and Business Media Deutschland GmbH. https://doi.org/10.1007/978-981-96-6906-6_6

Guha, Debanksh ; Govil, Meghansh ; Saw, Suraj Kumar et al. / Topological Quantum Computing : Majorana Fermions and Beyond. Innovative Computing and Communications - Proceedings of ICICC 2025. Gol. / Aboul Ella Hassanien ; Sameer Anand ; Ajay Jaiswal ; Prabhat Kumar. Springer Science and Business Media Deutschland GmbH, 2025. tt. 67-79 (Lecture Notes in Networks and Systems).

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title = "Topological Quantum Computing: Majorana Fermions and Beyond",

abstract = "Topological quantum computing (TQC) represents a reliable approach to overcoming the fundamental approach obstacles faced by classical quantum computers, particularly in the paradigm of error handling and qubit manipulation. Quantum computers are known for their ability to solve complex problems which ordinary computers are not able to solve since quantum computers are highly susceptible to environmental noise and quantum decoherence. TQC comes in clutch in this situation by encoding qubits in the topological properties of certain quantum systems, rendering them inherently resistant to local disturbances. One of the most notable candidates for topologically protected qubits is the Majorana Fermion, a particle that can encode quantum information through braiding process which provides a natural resistance to errors.",

keywords = "Error correction, Majorana Fermions, Quantum computing, Quantum decoherence, Qubits, Topological quantum computing",

author = "Debanksh Guha and Meghansh Govil and Saw, \{Suraj Kumar\} and Tiansheng Yang and Rathore, \{Rajkumar Singh\}",

note = "Publisher Copyright: {\textcopyright} The Author(s), under exclusive license to Springer Nature Singapore Pte Ltd. 2025.; 8th International Conference on Innovative Computing and Communication, ICICC 2025 ; Conference date: 14-02-2025 Through 15-02-2025",

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Guha, D, Govil, M, Saw, SK, Yang, T & Rathore, RS 2025, Topological Quantum Computing: Majorana Fermions and Beyond. yn AE Hassanien, S Anand, A Jaiswal & P Kumar (gol.), Innovative Computing and Communications - Proceedings of ICICC 2025. Lecture Notes in Networks and Systems, cyfrol. 1435 LNNS, Springer Science and Business Media Deutschland GmbH, tt. 67-79, 8th International Conference on Innovative Computing and Communication, ICICC 2025, New Delhi, India, 14/02/25. https://doi.org/10.1007/978-981-96-6906-6_6

Topological Quantum Computing: Majorana Fermions and Beyond. / Guha, Debanksh; Govil, Meghansh; Saw, Suraj Kumar et al.
Innovative Computing and Communications - Proceedings of ICICC 2025. gol. / Aboul Ella Hassanien; Sameer Anand; Ajay Jaiswal; Prabhat Kumar. Springer Science and Business Media Deutschland GmbH, 2025. t. 67-79 (Lecture Notes in Networks and Systems; Cyfrol 1435 LNNS).

Allbwn ymchwil: Pennod mewn Llyfr/Adroddiad/Trafodion Cynhadledd › Cyfraniad mewn cynhadledd › adolygiad gan gymheiriaid

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AU - Guha, Debanksh

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AU - Rathore, Rajkumar Singh

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AB - Topological quantum computing (TQC) represents a reliable approach to overcoming the fundamental approach obstacles faced by classical quantum computers, particularly in the paradigm of error handling and qubit manipulation. Quantum computers are known for their ability to solve complex problems which ordinary computers are not able to solve since quantum computers are highly susceptible to environmental noise and quantum decoherence. TQC comes in clutch in this situation by encoding qubits in the topological properties of certain quantum systems, rendering them inherently resistant to local disturbances. One of the most notable candidates for topologically protected qubits is the Majorana Fermion, a particle that can encode quantum information through braiding process which provides a natural resistance to errors.

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Guha D, Govil M, Saw SK, Yang T, Rathore RS. Topological Quantum Computing: Majorana Fermions and Beyond. Yn Hassanien AE, Anand S, Jaiswal A, Kumar P, golygyddion, Innovative Computing and Communications - Proceedings of ICICC 2025. Springer Science and Business Media Deutschland GmbH. 2025. t. 67-79. (Lecture Notes in Networks and Systems). doi: 10.1007/978-981-96-6906-6_6