Sinan Bugu

MicroNano Systems

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Biography

Dr. Sinan Bugu is enthusiastic and deeply motivated in his work, with a rich track-record in Quantum Information Processing (both theory and devices). His track record is built on a broad foundation of technical skills that demonstrate his ability to provide unique solutions and independently establish international collaborations, working in international multidisciplinary environments, merges his experiences across the fields of condensed physics, mathematics, and electrical and electronic engineering and delivering timely scientific results, which the scientific community has recognized. He studied theoretical quantum optics during his MSc at Istanbul University, followed by research studentships at the Department of Electrical & Computer Engineering, National University of Singapore (SINGA – Singapore National Graduate Award) and the Department of Electrical Engineering and Information Systems, University of Tokyo (Japanese Government Monbukagakusho (MEXT) scholarship – Ministry of Education, Culture, Sports, Science, and Technology) where he learned the fundamentals of condensed matter experimental physics and basic processing in the cleanroom. He has mastered the quantum physics of Quantum Dots and the RF reflectometry method during his Ph.D. at the Department of Electrical & Electronic Engineering, Tokyo Institute of Technology (MEXT scholarship). Notably, he joined Dr. Gonzalez-Zalba’s team at Hitachi Cambridge Labs at Cambridge University as a visiting scholar, where he specialized in the gate-based sensing technique and used NbN superconducting inductor for fast readout. Dr. Bugu has experience in working across international environments (Turkey, Singapore, UK & Japan). 
He is now working as a Researcher in the field of Quantum Materials and Nanostructures at Tyndall within the 
CMOS++ Research Cluster https://www.neuqu.ie/  led by Dr. Giorgos Fagas.

Dr. Bugu’s personal interest is focused on quantum microelectronics areas such as the readout of quantum devices via RF and microwave systems.
His current research activities on modeling, f
abrication, and characterization side are;

  •  Silicon Nanoelectromechanical switches (NEMS) resonators for quantum reflectometry
  •  GeOI devices and heterostructure (Ge/SiGe) quantum dots
  •  GeSn heterostructure-based multiple quantum dots system
  • Transition-metal dichalcogenides (TMDs) based superconducting qubit
     

Research Interests

Research Interests

Dr Bugu’s personal interest is focused on quantum microelectronics areas such as readout of quantum devices via RF and microwave systems.
His current research activities are;

  • Fabrication and characterisation of silicon NEMS

  • Fabrication and characterisation of heterostructure (Ge/SiGe) quantum dots

Publications

Peer Reviewed Journals

Year Journal Publication
2021 Japanese Journal of Applied Physics RF reflectometry for readout of charge transition in a physically defined p-channel MOS silicon quantum dot
Sinan Bugu and Shimpei Nishiyama and Kimihiko Kato and Yongxun Liu and Takahiro Mori and Tetsuo Kodera (2021) RF reflectometry for readout of charge transition in a physically defined p-channel MOS silicon quantum dot. : .
2021 Scientific Reports Radio-frequency single electron transistors in physically defined silicon quantum dots with a sensitive phase response.
Mizokuchi R;Bugu S;Hirayama M;Yoneda J;Kodera T; (2021) Radio-frequency single electron transistors in physically defined silicon quantum dots with a sensitive phase response.. : .
2021 Physical Review A Deterministic preparation of W states via spin-photon interactions
Ozaydin F.;Yesilyurt C.;Bugu S.;Koashi M. (2021) Deterministic preparation of W states via spin-photon interactions. : .
2021 Scientific Reports 4.2 K sensitivity-tunable radio frequency reflectometry of a physically defined p-channel silicon quantum dot.
Bugu S;Nishiyama S;Kato K;Liu Y;Murakami S;Mori T;Ferrus T;Kodera T; (2021) 4.2 K sensitivity-tunable radio frequency reflectometry of a physically defined p-channel silicon quantum dot.. : .
2020 Scientific Reports Preparing multipartite entangled spin qubits via pauli spin blockade
Bugu, Sinan and Ozaydin, Fatih and Ferrus, Thierry and Kodera, Tetsuo (2020) Preparing multipartite entangled spin qubits via pauli spin blockade. : .
2020 Scientific Reports Surpassing the classical limit in magic square game with distant quantum dots coupled to optical cavities.
Bugu S;Ozaydin F;Kodera T; (2020) Surpassing the classical limit in magic square game with distant quantum dots coupled to optical cavities.. : .
2016 Journal of The Optical Society of America B Deterministic Local Doubling of W states
C. Yesilyurt and S. Bugu and F. Ozaydin and A. A. Altintas and M. Tame and L. Yang and S. K. Ozdemir (2016) Deterministic Local Doubling of W states. : .
2015 Acta Physica Polonica A An Optical Setup for Deterministic Creation of Four Partite W state
C. Yesilyurt and S. Bugu and F. Diker and A. A. Altintas and F. Ozaydin (2015) An Optical Setup for Deterministic Creation of Four Partite W state. : .
2014 International Journal Of Theoretical Physics Quantum Fisher Information of Several Qubitsin the Superposition of A GHZ and two W Stateswith Arbitrary Relative Phase
Ozaydin F.;Altintas A.;Bugu S.;Yesilyurt C.;Arik M. (2014) Quantum Fisher Information of Several Qubitsin the Superposition of A GHZ and two W Stateswith Arbitrary Relative Phase. : .
2014 Physical Review A Fusing Multiple W States Simultaneously with a Fredkin Gate
F. Ozaydin and S. Bugu and C. Yesilyurt and A. A. Altintas and M. Tame and S. K. Ozdemir (2014) Fusing Multiple W States Simultaneously with a Fredkin Gate. : .
2014 Quantum Information Processing Constructing quantum logic gates using q-deformed harmonic oscillator algebras
Altintas A.A.;Ozaydin F.;Yesilyurt C.;Bugu S.;Arik M. (2014) Constructing quantum logic gates using q-deformed harmonic oscillator algebras. : .
2013 International Journal Of Theoretical Physics Quantum Fisher Information of N Particles in the Superposition of W and GHZ States
Ozaydin F.;Altintas A.;Bugu S.;Yesilyurt C. (2013) Quantum Fisher Information of N Particles in the Superposition of W and GHZ States. : .
2013 Quantum Information Processing An Optical Gate for Simultaneous Fusion of Four Photonic W or Bell States
C. Yesilyurt and S. Bugu, and F. Ozaydin (2013) An Optical Gate for Simultaneous Fusion of Four Photonic W or Bell States. : .
2013 Physical Review A Enhancing the W-State Quantum-Network-Fusion Process with a Single Fredkin Gate
S. Bugu and C. Yesilyurt and F. Ozaydin (2013) Enhancing the W-State Quantum-Network-Fusion Process with a Single Fredkin Gate. : .

Teaching Activities

Teaching Interests

Quantum Computer Engineering
Scientific Programming
Calculus 
Differential Equations
Discrete Structures
Computer Programming
Analysis of Algorithms
Designing Electrical Circuits
Digital Electronic Circuits