Mitsuyoshi Kamba Kamba Feedback Cooling of All External Degrees of Freedom of a Levitated Nanoparticle for Exploring Macroscopic Quantum Mechanics

Feedback Cooling of All External Degrees of Freedom of a Levitated Nanoparticle for Exploring Macroscopic Quantum Mechanics

von Mitsuyoshi Kamba

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Beschreibung

Controlling the motion of macroscopic mechanical oscillators with extreme precision in the quantum regime is a central challenge in modern physics. In this context, optically levitated nanoparticles offer a promising platform because they are well isolated from environmental noise and can be released into free space, enabling free expansion of their wave function.

Recent experiments have achieved ground-state cooling of a single translational mode of a levitated nanoparticle. However, achieving ground-state cooling while simultaneously cooling all other modes has remained challenging. Furthermore, little is known about the dynamics of such particles during free flight near the ground state.

This book demonstrates feedback cooling of all external degrees of freedom—three translational and three rotational motions—of a levitated nanoparticle. In particular, one of the translational modes is cooled to its quantum ground state. Moreover, it presents the first direct measurement of a nanoparticle’s velocity distribution in its motional ground state by temporarily releasing the particle from the optical trap.

These achievements mark a significant step toward the observation of macroscopic quantum interference and pave the way for applications to ultra-high precision sensing, including accelerometry and torque detection.

This book is intended for graduate students and researchers in atomic, molecular, and optical physics and quantum optics.


Controlling the motion of macroscopic mechanical oscillators with extreme precision in the quantum regime is a central challenge in modern physics. In this context, optically levitated nanoparticles offer a promising platform because they are well isolated from environmental noise and can be released into free space, enabling free expansion of their wave function.

Recent experiments have achieved ground-state cooling of a single translational mode of a levitated nanoparticle. However, achieving ground-state cooling while simultaneously cooling all other modes has remained challenging. Furthermore, little is known about the dynamics of such particles during free flight near the ground state.

This book demonstrates feedback cooling of all external degrees of freedom—three translational and three rotational motions—of a levitated nanoparticle. In particular, one of the translational modes is cooled to its quantum ground state. Moreover, it presents the first direct measurement of a nanoparticle’s velocity distribution in its motional ground state by temporarily releasing the particle from the optical trap.

These achievements mark a significant step toward the observation of macroscopic quantum interference and pave the way for applications to ultra-high precision sensing, including accelerometry and torque detection.

This book is intended for graduate students and researchers in atomic, molecular, and optical physics and quantum optics.


Nominated as an outstanding Ph.D. thesis by the Institute of Science Tokyo Demonstrates feedback cooling of all external degrees of freedom of a neutral nanoparticle Presents the achievement of direct measurement of the particle’s velocity distribution in its motional ground state

Autor*in

Mitsuyoshi Kamba

Themen in »Feedback Cooling of All External Degrees of Freedom of a Levitated Nanoparticle for Exploring Macroscopic Quantum Mechanics«

Feedback cooling of levitated nanoparticles Angular confinement of spherical nanoparticles Time-of-flight thermometry for levitated nanoparticles Quantum ground state cooling of neutral nanoparticles Experimental platform for macroscopic quantum mechanics Nanoparticle trapped in an optical lattice Cooling of a levitated nanomechanical oscillator Shape characterization of optically trapped nanoparticles

Stimmen zu »Feedback Cooling of All External Degrees of Freedom of a Levitated Nanoparticle for Exploring Macroscopic Quantum Mechanics«

Details

ISBN: 9789819570447
Verlag: Springer Singapore
Erscheinung: 19.05.2026

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