2026 Fabio Sebastiano: Electronics and Electrical Engineering Researcher – H-Index, Publications & Awards

Discipline name	D-Index	World Ranking	Current World Ranking	National Ranking	Current National Ranking	Publications	Citations
Electronics and Electrical Engineering	37	5185	4979	57	53	131	4954

Overview

Fabio Sebastiano is affiliated with Delft University of Technology in the Netherlands. Their research spans multiple disciplines, particularly focusing on engineering, computer science, and physics and astronomy.

Their work predominantly lies within several subfields of study: electrical and electronic engineering, atomic and molecular physics and optics, artificial intelligence, biomedical engineering, and computational theory and mathematics.

Fabio Sebastiano's research topics cover a range of advanced scientific and technological themes including:

Quantum and electron transport phenomena
Advancements in semiconductor devices and circuit design
Quantum computing algorithms and architecture
Semiconductor materials and devices
Quantum-dot cellular automata
Quantum information and cryptography
Radio frequency integrated circuit design

Their recent published papers include:

"A Scalable Cryo-CMOS Controller for the Wideband Frequency-Multiplexed Control of Spin Qubits and Transmons," 2020, IEEE Journal of Solid-State Circuits
"Characterization and Modeling of Mismatch in Cryo-CMOS," 2020, IEEE Journal of the Electron Devices Society
"Neural-Network Decoders for Quantum Error Correction Using Surface Codes: A Space Exploration of the Hardware Cost-Performance Tradeoffs," 2022, IEEE Transactions on Quantum Engineering
"Characterization and Modeling of Self-Heating in Nanometer Bulk-CMOS at Cryogenic Temperatures," 2021, IEEE Journal of the Electron Devices Society
"Subthreshold Mismatch in Nanometer CMOS at Cryogenic Temperatures," 2020, IEEE Journal of the Electron Devices Society

These papers have garnered citations reflecting ongoing engagement in semiconductor device physics, cryogenic electronics, and quantum error correction methodologies.

Fabio Sebastiano frequently collaborates with several researchers, including:

Masoud Babaie
Edoardo Charbon
Ramon W. J. Overwater
Luc Enthoven
Andrei Vladimirescu

Their work appears regularly in key academic venues such as:

IEEE Journal of Solid-State Circuits
arXiv (Cornell University)
IEEE Transactions on Quantum Engineering
IEEE Transactions on Circuits and Systems I Regular Papers
IEEE Journal of the Electron Devices Society

Fabio Sebastiano's body of research integrates engineering principles with quantum device applications and circuit design optimization, contributing to the broader understanding of quantum hardware and semiconductor technologies.

Best Publications

Cryo-CMOS Circuits and Systems for Quantum Computing Applications

Bishnu Patra;Rosario M. Incandela;Jeroen P. G. van Dijk;Harald A. R. Homulle

514
Citations
A 1.8 $\mu$ W 60 nV $/\surd$ Hz Capacitively-Coupled Chopper Instrumentation Amplifier in 65 nm CMOS for Wireless Sensor Nodes

Qinwen Fan;F. Sebastiano;J. H. Huijsing;K. A. A. Makinwa

413
Citations
CMOS-based cryogenic control of silicon quantum circuits

Xiao Xue;Bishnu Patra;Jeroen P. G. van Dijk;Nodar Samkharadze

259
Citations
Cryo-CMOS for quantum computing

E. Charbon;F. Sebastiano;A. Vladimirescu;H. Homulle

251
Citations
A Low-Voltage Mobility-Based Frequency Reference for Crystal-Less ULP Radios

F. Sebastiano;L.J. Breems;K. Makinwa;S. Drago

250
Citations
Characterization and Compact Modeling of Nanometer CMOS Transistors at Deep-Cryogenic Temperatures

Rosario M. Incandela;Lin Song;Harald Homulle;Edoardo Charbon

244
Citations
CMOS-based cryogenic control of silicon quantum circuits.

Xiao Xue;Bishnu Patra;Jeroen P. G. van Dijk;Nodar Samkharadze;Nodar Samkharadze

242
Citations
A 2.4GHz 830pJ/bit duty-cycled wake-up receiver with −82dBm sensitivity for crystal-less wireless sensor nodes

Salvatore Drago;Domine M. W Leenaerts;Fabio Sebastiano;Lucien J. Breems

151
Citations
A 1.2V 10µW NPN-based temperature sensor in 65nm CMOS with an inaccuracy of ±0.2°C (3s) from −70°C to 125°C

Fabio Sebastiano;Lucien J. Breems;Kofi A. A. Makinwa;Salvatore Drago

146
Citations
A 1.2-V 10- $\mu$ W NPN-Based Temperature Sensor in 65-nm CMOS With an Inaccuracy of 0.2 $^{\circ}$ C (3 $\sigma$ ) From $-$ 70 $^{\circ}$ C to 125 $^{\circ}$ C

Fabio Sebastiano;Lucien J Breems;Kofi A A Makinwa;Salvatore Drago

129
Citations
A Scalable Cryo-CMOS Controller for the Wideband Frequency-Multiplexed Control of Spin Qubits and Transmons

Jeroen Petrus Gerardus Van Dijk;Bishnu Patra;Sushil Subramanian;Xiao Xue

122
Citations
A low-voltage mobility-based frequency reference for crystal-less ULP radios

F. Sebastiano;L. Breems;K. Makinwa;S. Drago

121
Citations
A Dynamic Zoom ADC With 109-dB DR for Audio Applications

Burak Gonen;Fabio Sebastiano;Rui Quan;Robert van Veldhoven

117
Citations
Method and system for impulse radio wakeup

Fabio Sebastiano;Salvatore Drago;Lucien Johannes Breems;Dominicus Martinues Wilhelmus Leenaerts

95
Citations
Impact of Classical Control Electronics on Qubit Fidelity

J.P.G. van Dijk;J.P.G. van Dijk;E. Kawakami;R.N. Schouten;R.N. Schouten;M. Veldhorst;M. Veldhorst

91
Citations
19.1 A Scalable Cryo-CMOS 2-to-20GHz Digitally Intensive Controller for 4×32 Frequency Multiplexed Spin Qubits/Transmons in 22nm FinFET Technology for Quantum Computers

Bishnu Patra;Jeroen P. G. van Dijk;Sushil Subramanian;Andrea Corna

90
Citations
15.5 Cryo-CMOS circuits and systems for scalable quantum computing

Edoardo Charbon;Fabio Sebastiano;Masoud Babaie;Andrei Vladimirescu

84
Citations
Characterization and Modeling of Mismatch in Cryo-CMOS

P. A. ’T Hart;M. Babaie;Edoardo Charbon;Andrei Vladimirescu

78
Citations
Subthreshold Mismatch in Nanometer CMOS at Cryogenic Temperatures

P. A. T Hart;M. Babaie;Edoardo Charbon;Andrei Vladimirescu

72
Citations
The Cryogenic Temperature Behavior of Bipolar, MOS, and DTMOS Transistors in Standard CMOS

Harald Homulle;Lin Song;Edoardo Charbon;Fabio Sebastiano

68
Citations
A reconfigurable cryogenic platform for the classical control of quantum processors.

Harald Homulle;Stefan Visser;Bishnu Patra;Giorgio Ferrari

63
Citations
Neural-Network Decoders for Quantum Error Correction Using Surface Codes: A Space Exploration of the Hardware Cost-Performance Tradeoffs

Unknown

63
Citations
Characterization and Analysis of On-Chip Microwave Passive Components at Cryogenic Temperatures

Bishnu Patra;Mohammadreza Mehrpoo;Andrea Ruffino;Fabio Sebastiano

61
Citations
A Reconfigurable Cryogenic Platform for the Classical Control of Scalable Quantum Computers

Harald Homulle;Stefan Visser;Bishnu Patra;Giorgio Ferrari

60
Citations
Characterization and Modeling of Self-Heating in Nanometer Bulk-CMOS at Cryogenic Temperatures

P. A. T Hart;M. Babaie;A. Vladimirescu;F. Sebastiano

59
Citations
Cryo-CMOS Electronic Control for Scalable Quantum Computing: Invited

Fabio Sebastiano;Harald Homulle;Bishnu Patra;Rosario Incandela

56
Citations
A 280 $\mu$ W Dynamic Zoom ADC With 120 dB DR and 118 dB SNDR in 1 kHz BW

Shoubhik Karmakar;Burak Gonen;Fabio Sebastiano;Robert van Veldhoven

54
Citations

Frequent Co-Authors

Edoardo Charbon École Polytechnique Fédérale de Lausanne

Kofi A. A. Makinwa Delft University of Technology

Bram Nauta University of Twente

Robert Bogdan Staszewski University College Dublin

Johan H. Huijsing Delft University of Technology

Arthur van Roermund Eindhoven University of Technology

External Links

Personal website of Fabio Sebastiano

If you think any of the details on this page are incorrect, let us know.

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Fabio Sebastiano

D-Index & Metrics

D-Index & Metrics

Electronics and Electrical Engineering

Overview

Best Publications

Cryo-CMOS Circuits and Systems for Quantum Computing Applications

A 1.8 $\mu$ W 60 nV $/\surd$ Hz Capacitively-Coupled Chopper Instrumentation Amplifier in 65 nm CMOS for Wireless Sensor Nodes

CMOS-based cryogenic control of silicon quantum circuits

Cryo-CMOS for quantum computing

A Low-Voltage Mobility-Based Frequency Reference for Crystal-Less ULP Radios

Characterization and Compact Modeling of Nanometer CMOS Transistors at Deep-Cryogenic Temperatures

CMOS-based cryogenic control of silicon quantum circuits.

A 2.4GHz 830pJ/bit duty-cycled wake-up receiver with −82dBm sensitivity for crystal-less wireless sensor nodes

A 1.2V 10µW NPN-based temperature sensor in 65nm CMOS with an inaccuracy of ±0.2°C (3s) from −70°C to 125°C

A 1.2-V 10- $\mu$ W NPN-Based Temperature Sensor in 65-nm CMOS With an Inaccuracy of 0.2 $^{\circ}$ C (3 $\sigma$ ) From $-$ 70 $^{\circ}$ C to 125 $^{\circ}$ C

A Scalable Cryo-CMOS Controller for the Wideband Frequency-Multiplexed Control of Spin Qubits and Transmons

A low-voltage mobility-based frequency reference for crystal-less ULP radios

A Dynamic Zoom ADC With 109-dB DR for Audio Applications

Method and system for impulse radio wakeup

Impact of Classical Control Electronics on Qubit Fidelity

19.1 A Scalable Cryo-CMOS 2-to-20GHz Digitally Intensive Controller for 4×32 Frequency Multiplexed Spin Qubits/Transmons in 22nm FinFET Technology for Quantum Computers

15.5 Cryo-CMOS circuits and systems for scalable quantum computing

Characterization and Modeling of Mismatch in Cryo-CMOS

Subthreshold Mismatch in Nanometer CMOS at Cryogenic Temperatures

The Cryogenic Temperature Behavior of Bipolar, MOS, and DTMOS Transistors in Standard CMOS

A reconfigurable cryogenic platform for the classical control of quantum processors.

Neural-Network Decoders for Quantum Error Correction Using Surface Codes: A Space Exploration of the Hardware Cost-Performance Tradeoffs

Characterization and Analysis of On-Chip Microwave Passive Components at Cryogenic Temperatures

A Reconfigurable Cryogenic Platform for the Classical Control of Scalable Quantum Computers

Characterization and Modeling of Self-Heating in Nanometer Bulk-CMOS at Cryogenic Temperatures

Cryo-CMOS Electronic Control for Scalable Quantum Computing: Invited

A 280 $\mu$ W Dynamic Zoom ADC With 120 dB DR and 118 dB SNDR in 1 kHz BW

Frequent Co-Authors

External Links

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