News

Topological phase in bilayer graphene

2023. October 18.

In their recent experiment, researchers of the BME Quantum Electronics group could stabilise an exotic electronic state in bilayer graphene. Published in Nano Letters.

 

Máté Kedves, Bálint Szentpéteri, Albin Márffy, Endre Tóvári, Nikos Papadopoulos, Prasanna K. Rout, Kenji Watanabe, Takashi Taniguchi, Srijit Goswami, Szabolcs Csonka, and Péter Makk*
Stabilizing the Inverted Phase of a WSe2/BLG/WSe2 Heterostructure via Hydrostatic Pressure
Nano Letters, 2023
 
Web page of the Quantum Electronics group: https://nanoelectronics.physics.bme.hu/Quantum_intro
 
 
Link: 
https://pubs.acs.org/doi/10.1021/acs.nanolett.3c03029

Error correction in quantum computers

2023. September 27.

Theoretical physicists of BME Institute of Physics published new numerical results on the efficiency of the surface code error correction protocol in the journal Quantum.
 
To perform long computations, the quantum information that quantum computers work on has to be protected against environmental noise. This requires quantum error correction (QEC), whereby each logical qubit is encoded into collective quantum states of many physical qubits. We studied, using numerical simulation, how well the most promising quantum error correcting code, the so-called Surface Code can protect quantum information against a combination of so-called coherent errors (a type of calibration errors) and readout errors. We found that the Surface Code provides better protection as the code is scaled up, as long as the error levels are below a threshold. This threshold is close to the well-known threshold of another combination of errors: incoherent errors (a type of error arising from entanglement with a quantum environment) and readout errors. We also found (as shown in the accompanying image) that the Surface Code is more robust against readout errors than coherent errors. Note that we used the so-called phenomenological error model: we modeled the noise channels very precisely, but did not do a modeling of the code on the quantum circuit level.
 
Coherent errors and readout errors in the surface code
Áron Márton and János K. Asbóth
 
 
Link: 
https://quantum-journal.org/papers/q-2023-09-21-1116/

Gábor Varga passed away

2023. September 10.

We are deeply saddened by the loss of our colleague, Dr. Gábor Varga, associate professor of the Department of Physics at the BME Institute of Physics, who passed away unexpectedly at the age of 63.
 
Gábor worked at the Department of Physics for about 40 years, taught physics to generations of engineering students, and played an important role in the introduction of computer modeling education. He was a highly valued colleague of ours, having strong friendships with many people at the Institute of Physics.
 
He will be truly missed by his colleagues, who share the pain of Gábor's family. 
 
 
 

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