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Onderzoeker
Rohith Acharya
- Disciplines:Kwantuminformatie, computatie en communicatie
Affiliaties
- Geassocieerde Afdeling ESAT - INSYS (INSYS), Integrated Systems (Afdeling)
Lid
Vanaf1 aug 2020 → Heden - Elektronische Circuits en Systemen (ECS) (Afdeling)
Lid
Vanaf1 aug 2020 → 31 jul 2020
Projecten
1 - 1 of 1
- Karakterisering en modellering van de kwantum-klassieke interface voor schaalbare supergeleidende kwantumcomputersVanaf31 jan 2019 → 1 dec 2023Financiering: Eigen Middelen zoals patrimonium, inschrijvingsgelden, giften, ....
Publicaties
1 - 8 van 8
- Characterization and Modelling of the Quantum-classical Interface for Scalable Superconducting Quantum Computing(2023)
Auteurs: Rohith Acharya, Francky Catthoor, Georges Gielen
- Argon-Milling-Induced Decoherence Mechanisms in Superconducting Quantum Circuits(2023)
Auteurs: Jacques Van Damme, Rohith Acharya, Joris Van de Vondel, Jo De Boeck, Kristiaan De Greve
- A Co-Simulation Methodology for the Design of Integrated Silicon Spin Qubits with their Control/Readout Cryo-CMOS Electronics(2022)
Auteurs: Benjamin Gys, Rohith Acharya, Kristiaan De Greve, Georges Gielen
Pagina's: 685 - 693 - Path toward manufacturable superconducting qubits with relaxation times exceeding 0.1 ms(2022)
Auteurs: Jeroen Verjauw, Rohith Acharya, Jacques Van Damme, Marc Heyns
- Millikelvin temperature cryo-CMOS multiplexer for scalable quantum device characterisation(2022)
Auteurs: Jeroen Verjauw, Rohith Acharya
- Investigation of Microwave Loss Induced by Oxide Regrowth in High-Q Niobium Resonators(2021)
Auteurs: Jeroen Verjauw, Rohith Acharya, Marc Heyns
- Fabrication and room temperature characterization of trilayer junctions for the development of superconducting qubits on 300 mm wafers(2021)
Auteurs: Jeroen Verjauw, Rohith Acharya
- Circuit models for the co-simulation of superconducting quantum computing systems(2021)
Auteurs: Rohith Acharya, Kristiaan De Greve, Georges Gielen, Francky Catthoor
Pagina's: 968 - 973Aantal pagina's: 6