Ring my string: Building silicon nano-strings

Artist’s rendition of the vibration patterns of nanoscale crystalline silicon strings.
Credit: Daniele Francaviglia

Tightening a string, e.g. when tuning a guitar, makes it vibrate faster. But when strings are nano-sized, increased tension also reduces, or ‘dilutes’, the loss of the string’s vibrational modes.

This effect, known as ‘dissipation dilution’, has been exploited to develop mechanical devices for quantum technologies, where engineered, tensioned nanostrings with a thickness of just a few tens of atomic layers oscillate more than ten billion times after being plucked just once. The equivalent on a guitar would be a chord heard for about a year after being plucked.

Researchers at EPFL, led by Professor Tobias J. Kippenberg, have now made a simple observation about crystal oscillators, which are ubiquitously used in electronic devices and are known to possess extremely small mechanical energy loss at low temperature. The researchers proved that, if a crystalline material with nanoscale thickness is stretched with high tension and retains its atomic order, it would be a good candidate for making strings with long-lived acoustic vibrations. The study is published in Nature Physics.

“We chose strained silicon films because it is an established technology in the electronics industry, where they are used to improve the performance of transistors,” says Dr Nils Engelsen, one of the paper’s authors. “Strained silicon films are therefore commercially available in extremely small thicknesses of about 10 nanometers.”

A major challenge is that the nanostrings should have extreme aspect ratios. In this paper, the nanomechanical devices are 12 nanometers-thick and up to 6 millimeters-long. If such a nanostring was built standing upright, with a foundation diameter equal to that of the Burj Khalifa tower, its tip would surpass Medium Earth Orbit, where GPS satellites circle the Earth.

“These structures become fragile and susceptible to tiny perturbations during the last steps of their microfabrication,” says Alberto Beccari, a PhD student in Kippenberg’s lab, and the paper’s first author. “We had to completely revamp our fabrication protocol to be able to suspend them without catastrophic collapse.”

The strained silicon nanostrings are particularly interesting for quantum-mechanical experiments, where their low dissipation rate provides excellent isolation from environmental disturbance, enabling the creation of high-purity quantum states.

“A long-standing quest in fundamental physics is to study and extend the size and mass scales of objects that exhibit quantum-mechanical behavior, before the ever-increasing random ‘kicks’ and fluctuations from the hot, noisy environment force them to behave according to the laws of Newton mechanics,” says Beccari. “Quantum-mechanical effects have already been observed with mechanical resonators of the same size and mass, at temperatures close to the absolute zero.

“In addition, these nanostrings could be used as precision force-sensors, being subject to all sorts of interactions – for example to the minuscule radiation pressure of light beams, to weak interactions with dark matter particles and to magnetic fields produced by subatomic particles.”

All samples were fabricated at the Center of MicroNanoTechnology (CMi) at EPFL.

Additional contributors

  • EPFL Interdisciplinary Center for Electron Microscopy (CIME)

Reference

A. Beccari, D. A. Visani, S. A. Fedorov, M. J. Bereyhi, V. Boureau, N. J. Engelsen, T. J. Kippenberg. Strained crystalline nanomechanical resonators with ultralow dissipation. Nature Physics 28 February 2022. DOI: 10.1038/s41567-021-01498-4

Journal: Nature Physics
DOI: 10.1038/s41567-021-01498-4
Article Publication Date: 28-Feb-2022

Media Contact

Nik Papageorgiou
Ecole Polytechnique Fédérale de Lausanne
n.papageorgiou@epfl.ch
Office: +41 21 693 21 05

Expert Contact

Professor Tobias Kippenberg
École polytechnique fédérale de Lausanne (EPFL)
tobias.kippenberg@epfl.ch
Office: +41 21 693 44 28

www.epfl.ch

Media Contact

Nik Papageorgiou
Ecole Polytechnique Fédérale de Lausanne

All latest news from the category: Physics and Astronomy

This area deals with the fundamental laws and building blocks of nature and how they interact, the properties and the behavior of matter, and research into space and time and their structures.

innovations-report provides in-depth reports and articles on subjects such as astrophysics, laser technologies, nuclear, quantum, particle and solid-state physics, nanotechnologies, planetary research and findings (Mars, Venus) and developments related to the Hubble Telescope.

Back to home

Comments (0)

Write a comment

Newest articles

Little girl, School, Education.

STRONG Program Cuts Anxiety Issues in Immigrant and Refugee Students

The first randomized control trial of the school-based intervention called Supporting Transition Resilience of Newcomer Groups (STRONG) shows significant reductions in depression, anxiety and behavior problems among refugee and immigrant…

An Ohio State study found a link between impairments in physical function and hospital readmission risk among adults 50 years of age and older.

Physical Function Impairments Linked to Hospital Readmission Among 50+ Adults

Researchers from The Ohio State University Wexner Medical Center and College of Medicine’s School of Health and Rehabilitation Sciences (HRS) recently published a study that found a link between impairments in physical function and…

Elderly Man Stretching His Body.

Study Reveals Exercise Improves Brain Insulin, Helps Prevent Dementia

Study confirms positive effects of exercise on insulin signaling proteins from the brain A study led by scientists at Rutgers University-New Brunswick has shown that specialized cells involved in how…