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We propose an approach to cool a mechanical resonator (MR) via quantum interference in a triple quantum dot (TQD) capacitively coupled to the MR. The TQD connected to three electrodes is an electronic analog of a three-level atom in…

Mesoscale and Nanoscale Physics · Physics 2010-01-11 Shi-Hua Ouyang , Chi-Hang Lam , J. Q. You

We propose an approach for achieving ground-state cooling of a nanomechanical resonator (NAMR) capacitively coupled to a triple quantum dot (TQD). This TQD is an electronic analog of a three-level atom in $\Lambda$ configuration which…

Mesoscale and Nanoscale Physics · Physics 2015-06-05 Zeng-Zhao Li , Shi-Hua Ouyang , Chi-Hang Lam , J. Q. You

Spin qubits in gate-defined quantum dots (QDs) are emerging as a leading technology due to their scalability and long coherence times. However, maintaining these qubits at ultra-low temperatures typically requires complex cryogenic systems.…

Mesoscale and Nanoscale Physics · Physics 2024-10-29 Daryoosh Vashaee , Jahanfar Abouie

We present a quantum theory of cooling of a mechanical resonator using back-action with constant electron current. The resonator device is based on a doubly clamped nanotube, which mechanically vibrates and acts as a double quantum dot for…

Other Condensed Matter · Physics 2009-11-13 Stefano Zippilli , Giovanna Morigi , Adrian Bachtold

We propose a scheme to cool down a mechanical resonator to its quantum ground-state, which is interacting with a working fluid via an optomechanical-like coupling. As opposed to standard laser cooling schemes where coherence renders the…

Quantum Physics · Physics 2021-05-20 M. Tahir Naseem , Özgür E. Müstecaplıoğlu

The steady-state cooling of a nanomechanical resonator interacting with three coupled quantum dots is studied. General conditions for the cooling to the ground state with single and two-electron dark states are obtained. The results show…

Quantum Physics · Physics 2015-06-04 Jia-pei Zhu , Gao-xiang Li , Zbigniew Ficek

We investigate the efficiency of cooling the vibrations of a nano-mechanical resonator, constituted by a partially suspended Carbon-nanotube and operating as double-quantum dot. The motion is brought to lower temperatures by tailoring the…

Mesoscale and Nanoscale Physics · Physics 2015-05-18 Stefano Zippilli , Adrian Bachtold , Giovanna Morigi

Cooling microwave resonators to near the quantum ground state, crucial for their operation in the quantum regime, is typically achieved by direct device refrigeration to a few tens of millikelvin. However, in quantum experiments that…

Quantum Physics · Physics 2020-01-29 Mingrui Xu , Xu Han , Chang-Ling Zou , Wei Fu , Yuntao Xu , Changchun Zhong , Liang Jiang , Hong X. Tang

We present an analysis of the cooling of a micro-mechanical resonator by means of measurements and back action. The measurements are performed via the coupling to a Cooper-pair box, and although the coupling does not lead to net cooling,…

Quantum Physics · Physics 2013-05-29 Christian Bergenfeldt , Klaus Molmer

We study the role of qubit dephasing in cooling a mechanical resonator by quantum back-action. With a superconducting flux qubit as a specific example, we show that ground-state cooling of a mechanical resonator can only be realized if the…

Mesoscale and Nanoscale Physics · Physics 2015-05-13 Ying-Dan Wang , Yong Li , Fei Xue , C. Bruder , K. Semba

The present state-of-the-art in cooling mechanical resonators is a version of "sideband" cooling. Here we present a method that uses the same configuration as sideband cooling --- coupling the resonator to be cooled to a second microwave…

Quantum Physics · Physics 2015-05-27 Xiaoting Wang , Sai Vinjanampathy , Frederick W. Strauch , Kurt Jacobs

We have employed a feedback cooling scheme, which combines high-frequency mixing with digital signal processing. The frequency and damping rate of a 2 MHz micromechanical resonator embedded in a dc SQUID are adjusted with the feedback, and…

Mesoscale and Nanoscale Physics · Physics 2012-03-16 M. Poot , S. Etaki , H. Yamaguchi , H. S. J. van der Zant

Cooling of a 58 MHz micro-mechanical resonator from room temperature to 11 K is demonstrated using cavity enhanced radiation pressure. Detuned pumping of an optical resonance allows enhancement of the blue shifted motional sideband (caused…

Optics · Physics 2015-11-30 A. Schliesser , P. Del'Haye , N. Nooshi , K. J. Vahala , T. J. Kippenberg

Recent theoretical work has shown that radiation pressure effects can in principle cool a mechanical degree of freedom to its ground state. In this paper, we apply this theory to our realization of an opto-mechanical system in which the…

Mesoscale and Nanoscale Physics · Physics 2008-11-06 J. D. Teufel , C. A. Regal , K. W. Lehnert

We show a purely electronic cooling scheme to cool a charged mechanical resonator (MR) down to nearly the vibrational ground state by elaborately tuning bias gate voltages on the electrodes, which couple the MR by Coulomb interaction. The…

Quantum Physics · Physics 2013-03-13 Jian-Qi Zhang , Yong Li , Mang Feng

Quantum manipulation of mechanical resonators has been widely applied in fundamental physics and quantum information processing. Among them, cooling the mechanical system to its quantum ground state is regarded as a key step. In this work,…

Quantum Physics · Physics 2020-03-18 Ming-Song Ding , Li Zheng , Chong Li

Using a semi-classical approach, we describe an on-chip cooling protocol for a micro-mechanical resonator by employing a superconducting flux qubit. A Lorentz force, generated by the passive back-action of the resonator's displacement, can…

Mesoscale and Nanoscale Physics · Physics 2009-11-13 Y. D. Wang , K. Semba , H. Yamaguchi

We have cooled the motion of a radio-frequency nanomechanical resonator by parametric coupling to a driven microwave frequency superconducting resonator. Starting from a thermal occupation of 480 quanta, we have observed occupation factors…

Quantum Physics · Physics 2015-05-13 T. Rocheleau , T. Ndukum , C. Macklin , J. B. Hertzberg , A. A. Clerk , K. C. Schwab

We discuss cooling of a nanomechanical resonator to its mechanical ground state by coupling it to a collective system of two interacting flux qubits. We find that the collectivity crucially improves cooling by two mechanisms. First, cooling…

Quantum Physics · Physics 2009-12-11 K. Xia , J. Evers

We theoretically investigate a quadratic optomechanical system comprising a single-mode optical cavity linearly coupled to one mechanical resonator and quadratically coupled to a second resonator. By tuning the cavity detuning and…

Quantum Physics · Physics 2026-05-26 Huanhuan Wei , Yun Chen , Jing Tang , Yuangang Deng
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