Data provided by National Institute of Standards and Technology
'Beating thermal noise in a dynamic signal measurement by a nanofabricated cavity-optomechanical sensor', Mingkang Wang, Diego J. Perez-Morelo, Georg Ramer, Georges Pavlidis, Jeffrey J. Schwartz, Liya Yu, Robert Ilic, Andrea Centrone, and Vladimir A. Aksyuk, Science Advances 9, eadf759, 2023.DOI:10.1126/sciadv.adf7595Thermal fluctuations often impose both fundamental and practical measurement limits on high-performance sensors, motivating the development of techniques that bypass the limitations imposed by thermal noise outside cryogenic environments. Here, we theoretically propose and experimentally demonstrate a measurement method that reduces the effective transducer temperature and improves the measurement precision of a dynamic impulse response signal. Thermal noise limited, integrated cavity-optomechanical atomic force microscopy probes are used in a photothermal induced resonance measurement to demonstrate an effective temperature reduction by a factor of ? 25; i.e., from room temperature down as low as ? 12 K, without cryogens. The method improves the experimental measurement precision and throughput by > 2x, approaching the theoretical limit of ? 3.5x improvement for our experimental conditions. The general applicability of this method to dynamic measurements leveraging thermal-noise-limited harmonic transducers will have a broad impact across a variety of measurement platforms and scientific fields.
About this Dataset
Updated: 2024-02-22
Metadata Last Updated:
2023-01-24 00:00:00
Date Created:
N/A
Views:
Data Provided by:
Thermal noise
Dataset Owner:
N/A
| Title | Data for manuscript: Beating thermal noise in a dynamic signal measurement by a nanofabricated cavity-optomechanical sensor. |
|---|---|
| Description | 'Beating thermal noise in a dynamic signal measurement by a nanofabricated cavity-optomechanical sensor', Mingkang Wang, Diego J. Perez-Morelo, Georg Ramer, Georges Pavlidis, Jeffrey J. Schwartz, Liya Yu, Robert Ilic, Andrea Centrone, and Vladimir A. Aksyuk, Science Advances 9, eadf759, 2023.DOI:10.1126/sciadv.adf7595Thermal fluctuations often impose both fundamental and practical measurement limits on high-performance sensors, motivating the development of techniques that bypass the limitations imposed by thermal noise outside cryogenic environments. Here, we theoretically propose and experimentally demonstrate a measurement method that reduces the effective transducer temperature and improves the measurement precision of a dynamic impulse response signal. Thermal noise limited, integrated cavity-optomechanical atomic force microscopy probes are used in a photothermal induced resonance measurement to demonstrate an effective temperature reduction by a factor of ? 25; i.e., from room temperature down as low as ? 12 K, without cryogens. The method improves the experimental measurement precision and throughput by > 2x, approaching the theoretical limit of ? 3.5x improvement for our experimental conditions. The general applicability of this method to dynamic measurements leveraging thermal-noise-limited harmonic transducers will have a broad impact across a variety of measurement platforms and scientific fields. |
| Modified | 2023-01-24 00:00:00 |
| Publisher Name | National Institute of Standards and Technology |
| Contact | mailto:[email protected] |
| Keywords | Thermal noise , cavity optomechanical sensing , nanomechanical resonator , PTIR |
{
"identifier": "ark:\/88434\/mds2-2926",
"accessLevel": "public",
"contactPoint": {
"hasEmail": "mailto:[email protected]",
"fn": "Vladimir Aksyuk"
},
"programCode": [
"006:045"
],
"@type": "dcat:Dataset",
"landingPage": "https:\/\/data.nist.gov\/od\/id\/mds2-2926",
"description": "'Beating thermal noise in a dynamic signal measurement by a nanofabricated cavity-optomechanical sensor', Mingkang Wang, Diego J. Perez-Morelo, Georg Ramer, Georges Pavlidis, Jeffrey J. Schwartz, Liya Yu, Robert Ilic, Andrea Centrone, and Vladimir A. Aksyuk, Science Advances 9, eadf759, 2023.DOI:10.1126\/sciadv.adf7595Thermal fluctuations often impose both fundamental and practical measurement limits on high-performance sensors, motivating the development of techniques that bypass the limitations imposed by thermal noise outside cryogenic environments. Here, we theoretically propose and experimentally demonstrate a measurement method that reduces the effective transducer temperature and improves the measurement precision of a dynamic impulse response signal. Thermal noise limited, integrated cavity-optomechanical atomic force microscopy probes are used in a photothermal induced resonance measurement to demonstrate an effective temperature reduction by a factor of ? 25; i.e., from room temperature down as low as ? 12 K, without cryogens. The method improves the experimental measurement precision and throughput by > 2x, approaching the theoretical limit of ? 3.5x improvement for our experimental conditions. The general applicability of this method to dynamic measurements leveraging thermal-noise-limited harmonic transducers will have a broad impact across a variety of measurement platforms and scientific fields.",
"language": [
"en"
],
"title": "Data for manuscript: Beating thermal noise in a dynamic signal measurement by a nanofabricated cavity-optomechanical sensor.",
"distribution": [
{
"downloadURL": "https:\/\/data.nist.gov\/od\/ds\/ark:\/88434\/mds2-2926\/Fig3\/b1.txt",
"mediaType": "text\/plain"
},
{
"downloadURL": "https:\/\/data.nist.gov\/od\/ds\/ark:\/88434\/mds2-2926\/Fig3\/b1.txt.sha256",
"mediaType": "text\/plain"
},
{
"downloadURL": "https:\/\/data.nist.gov\/od\/ds\/ark:\/88434\/mds2-2926\/Fig3\/c1.txt",
"mediaType": "text\/plain"
},
{
"downloadURL": "https:\/\/data.nist.gov\/od\/ds\/ark:\/88434\/mds2-2926\/Fig3\/c1.txt.sha256",
"mediaType": "text\/plain"
},
{
"downloadURL": "https:\/\/data.nist.gov\/od\/ds\/ark:\/88434\/mds2-2926\/Fig3\/c2.txt",
"mediaType": "text\/plain"
},
{
"downloadURL": "https:\/\/data.nist.gov\/od\/ds\/ark:\/88434\/mds2-2926\/Fig3\/c2.txt.sha256",
"mediaType": "text\/plain"
},
{
"downloadURL": "https:\/\/data.nist.gov\/od\/ds\/ark:\/88434\/mds2-2926\/Fig3\/d1.txt",
"mediaType": "text\/plain"
},
{
"downloadURL": "https:\/\/data.nist.gov\/od\/ds\/ark:\/88434\/mds2-2926\/Fig3\/d1.txt.sha256",
"mediaType": "text\/plain"
},
{
"downloadURL": "https:\/\/data.nist.gov\/od\/ds\/ark:\/88434\/mds2-2926\/Fig3\/d2.txt",
"mediaType": "text\/plain"
},
{
"downloadURL": "https:\/\/data.nist.gov\/od\/ds\/ark:\/88434\/mds2-2926\/Fig3\/d2.txt.sha256",
"mediaType": "text\/plain"
},
{
"downloadURL": "https:\/\/data.nist.gov\/od\/ds\/ark:\/88434\/mds2-2926\/Fig3\/d3.txt",
"mediaType": "text\/plain"
},
{
"downloadURL": "https:\/\/data.nist.gov\/od\/ds\/ark:\/88434\/mds2-2926\/Fig3\/d3.txt.sha256",
"mediaType": "text\/plain"
},
{
"downloadURL": "https:\/\/data.nist.gov\/od\/ds\/ark:\/88434\/mds2-2926\/Fig3\/TOC_Fig3.txt",
"mediaType": "text\/plain"
},
{
"downloadURL": "https:\/\/data.nist.gov\/od\/ds\/ark:\/88434\/mds2-2926\/Fig3\/TOC_Fig3.txt.sha256",
"mediaType": "text\/plain"
},
{
"downloadURL": "https:\/\/data.nist.gov\/od\/ds\/ark:\/88434\/mds2-2926\/Fig4\/ax.txt",
"mediaType": "text\/plain"
},
{
"downloadURL": "https:\/\/data.nist.gov\/od\/ds\/ark:\/88434\/mds2-2926\/Fig4\/ax.txt.sha256",
"mediaType": "text\/plain"
},
{
"downloadURL": "https:\/\/data.nist.gov\/od\/ds\/ark:\/88434\/mds2-2926\/Fig4\/ay.txt",
"mediaType": "text\/plain"
},
{
"downloadURL": "https:\/\/data.nist.gov\/od\/ds\/ark:\/88434\/mds2-2926\/Fig4\/ay.txt.sha256",
"mediaType": "text\/plain"
},
{
"downloadURL": "https:\/\/data.nist.gov\/od\/ds\/ark:\/88434\/mds2-2926\/Fig4\/az.txt",
"mediaType": "text\/plain"
},
{
"downloadURL": "https:\/\/data.nist.gov\/od\/ds\/mds2-2926\/README.txt",
"mediaType": "text\/plain",
"title": "Readme file"
},
{
"downloadURL": "https:\/\/data.nist.gov\/od\/ds\/ark:\/88434\/mds2-2926\/Fig3\/a1.txt",
"mediaType": "text\/plain"
},
{
"downloadURL": "https:\/\/data.nist.gov\/od\/ds\/ark:\/88434\/mds2-2926\/Fig3\/a1.txt.sha256",
"mediaType": "text\/plain"
},
{
"downloadURL": "https:\/\/data.nist.gov\/od\/ds\/ark:\/88434\/mds2-2926\/Fig3\/a2.txt",
"mediaType": "text\/plain"
},
{
"downloadURL": "https:\/\/data.nist.gov\/od\/ds\/ark:\/88434\/mds2-2926\/Fig3\/a2.txt.sha256",
"mediaType": "text\/plain"
},
{
"downloadURL": "https:\/\/data.nist.gov\/od\/ds\/ark:\/88434\/mds2-2926\/Fig4\/d1.txt.sha256",
"mediaType": "text\/plain"
},
{
"downloadURL": "https:\/\/data.nist.gov\/od\/ds\/ark:\/88434\/mds2-2926\/Fig4\/d2.txt",
"mediaType": "text\/plain"
},
{
"downloadURL": "https:\/\/data.nist.gov\/od\/ds\/ark:\/88434\/mds2-2926\/Fig4\/d2.txt.sha256",
"mediaType": "text\/plain"
},
{
"downloadURL": "https:\/\/data.nist.gov\/od\/ds\/ark:\/88434\/mds2-2926\/Fig4\/e1.txt",
"mediaType": "text\/plain"
},
{
"downloadURL": "https:\/\/data.nist.gov\/od\/ds\/ark:\/88434\/mds2-2926\/Fig4\/e1.txt.sha256",
"mediaType": "text\/plain"
},
{
"downloadURL": "https:\/\/data.nist.gov\/od\/ds\/ark:\/88434\/mds2-2926\/Fig4\/e2.txt",
"mediaType": "text\/plain"
},
{
"downloadURL": "https:\/\/data.nist.gov\/od\/ds\/ark:\/88434\/mds2-2926\/Fig4\/e2.txt.sha256",
"mediaType": "text\/plain"
},
{
"downloadURL": "https:\/\/data.nist.gov\/od\/ds\/ark:\/88434\/mds2-2926\/Fig4\/e3.txt",
"mediaType": "text\/plain"
},
{
"downloadURL": "https:\/\/data.nist.gov\/od\/ds\/ark:\/88434\/mds2-2926\/Fig4\/e3.txt.sha256",
"mediaType": "text\/plain"
},
{
"downloadURL": "https:\/\/data.nist.gov\/od\/ds\/ark:\/88434\/mds2-2926\/Fig4\/TOC_Fig4.txt",
"mediaType": "text\/plain"
},
{
"downloadURL": "https:\/\/data.nist.gov\/od\/ds\/ark:\/88434\/mds2-2926\/Fig4\/TOC_Fig4.txt.sha256",
"mediaType": "text\/plain"
},
{
"downloadURL": "https:\/\/data.nist.gov\/od\/ds\/ark:\/88434\/mds2-2926\/Fig5\/ax.txt",
"mediaType": "text\/plain"
},
{
"downloadURL": "https:\/\/data.nist.gov\/od\/ds\/ark:\/88434\/mds2-2926\/Fig5\/ax.txt.sha256",
"mediaType": "text\/plain"
},
{
"downloadURL": "https:\/\/data.nist.gov\/od\/ds\/ark:\/88434\/mds2-2926\/Fig5\/ay.txt",
"mediaType": "text\/plain"
},
{
"downloadURL": "https:\/\/data.nist.gov\/od\/ds\/ark:\/88434\/mds2-2926\/Fig5\/ay.txt.sha256",
"mediaType": "text\/plain"
},
{
"downloadURL": "https:\/\/data.nist.gov\/od\/ds\/ark:\/88434\/mds2-2926\/Fig5\/az.txt",
"mediaType": "text\/plain"
},
{
"downloadURL": "https:\/\/data.nist.gov\/od\/ds\/ark:\/88434\/mds2-2926\/Fig5\/az.txt.sha256",
"mediaType": "text\/plain"
},
{
"downloadURL": "https:\/\/data.nist.gov\/od\/ds\/ark:\/88434\/mds2-2926\/Fig5\/bx.txt",
"mediaType": "text\/plain"
},
{
"downloadURL": "https:\/\/data.nist.gov\/od\/ds\/ark:\/88434\/mds2-2926\/Fig5\/bx.txt.sha256",
"mediaType": "text\/plain"
},
{
"downloadURL": "https:\/\/data.nist.gov\/od\/ds\/ark:\/88434\/mds2-2926\/Fig5\/by.txt",
"mediaType": "text\/plain"
},
{
"downloadURL": "https:\/\/data.nist.gov\/od\/ds\/ark:\/88434\/mds2-2926\/Fig5\/by.txt.sha256",
"mediaType": "text\/plain"
},
{
"downloadURL": "https:\/\/data.nist.gov\/od\/ds\/ark:\/88434\/mds2-2926\/Fig5\/bz.txt",
"mediaType": "text\/plain"
},
{
"downloadURL": "https:\/\/data.nist.gov\/od\/ds\/ark:\/88434\/mds2-2926\/Fig5\/bz.txt.sha256",
"mediaType": "text\/plain"
},
{
"downloadURL": "https:\/\/data.nist.gov\/od\/ds\/ark:\/88434\/mds2-2926\/Fig5\/cx.txt",
"mediaType": "text\/plain"
},
{
"downloadURL": "https:\/\/data.nist.gov\/od\/ds\/ark:\/88434\/mds2-2926\/Fig5\/cx.txt.sha256",
"mediaType": "text\/plain"
},
{
"downloadURL": "https:\/\/data.nist.gov\/od\/ds\/ark:\/88434\/mds2-2926\/Fig5\/cy.txt",
"mediaType": "text\/plain"
},
{
"downloadURL": "https:\/\/data.nist.gov\/od\/ds\/ark:\/88434\/mds2-2926\/Fig5\/cy.txt.sha256",
"mediaType": "text\/plain"
},
{
"downloadURL": "https:\/\/data.nist.gov\/od\/ds\/ark:\/88434\/mds2-2926\/Fig5\/cz.txt",
"mediaType": "text\/plain"
},
{
"downloadURL": "https:\/\/data.nist.gov\/od\/ds\/ark:\/88434\/mds2-2926\/Fig5\/cz.txt.sha256",
"mediaType": "text\/plain"
},
{
"downloadURL": "https:\/\/data.nist.gov\/od\/ds\/ark:\/88434\/mds2-2926\/Fig5\/dx.txt",
"mediaType": "text\/plain"
},
{
"downloadURL": "https:\/\/data.nist.gov\/od\/ds\/ark:\/88434\/mds2-2926\/Fig5\/dx.txt.sha256",
"mediaType": "text\/plain"
},
{
"downloadURL": "https:\/\/data.nist.gov\/od\/ds\/ark:\/88434\/mds2-2926\/Fig5\/dy.txt",
"mediaType": "text\/plain"
},
{
"downloadURL": "https:\/\/data.nist.gov\/od\/ds\/ark:\/88434\/mds2-2926\/Fig5\/dy.txt.sha256",
"mediaType": "text\/plain"
},
{
"downloadURL": "https:\/\/data.nist.gov\/od\/ds\/ark:\/88434\/mds2-2926\/Fig5\/dz.txt",
"mediaType": "text\/plain"
},
{
"downloadURL": "https:\/\/data.nist.gov\/od\/ds\/ark:\/88434\/mds2-2926\/Fig5\/dz.txt.sha256",
"mediaType": "text\/plain"
},
{
"downloadURL": "https:\/\/data.nist.gov\/od\/ds\/ark:\/88434\/mds2-2926\/Fig5\/TOC_Fig5.txt",
"mediaType": "text\/plain"
},
{
"downloadURL": "https:\/\/data.nist.gov\/od\/ds\/ark:\/88434\/mds2-2926\/Fig5\/TOC_Fig5.txt.sha256",
"mediaType": "text\/plain"
},
{
"downloadURL": "https:\/\/data.nist.gov\/od\/ds\/ark:\/88434\/mds2-2926\/Fig1\/Fig1_no_data.txt",
"mediaType": "text\/plain"
},
{
"downloadURL": "https:\/\/data.nist.gov\/od\/ds\/ark:\/88434\/mds2-2926\/Fig1\/Fig1_no_data.txt.sha256",
"mediaType": "text\/plain"
},
{
"downloadURL": "https:\/\/data.nist.gov\/od\/ds\/ark:\/88434\/mds2-2926\/Fig2\/c1.txt",
"mediaType": "text\/plain"
},
{
"downloadURL": "https:\/\/data.nist.gov\/od\/ds\/ark:\/88434\/mds2-2926\/Fig2\/c1.txt.sha256",
"mediaType": "text\/plain"
},
{
"downloadURL": "https:\/\/data.nist.gov\/od\/ds\/ark:\/88434\/mds2-2926\/Fig2\/c2.txt",
"mediaType": "text\/plain"
},
{
"downloadURL": "https:\/\/data.nist.gov\/od\/ds\/ark:\/88434\/mds2-2926\/Fig2\/c2.txt.sha256",
"mediaType": "text\/plain"
},
{
"downloadURL": "https:\/\/data.nist.gov\/od\/ds\/ark:\/88434\/mds2-2926\/Fig2\/d1.txt",
"mediaType": "text\/plain"
},
{
"downloadURL": "https:\/\/data.nist.gov\/od\/ds\/ark:\/88434\/mds2-2926\/Fig2\/d1.txt.sha256",
"mediaType": "text\/plain"
},
{
"downloadURL": "https:\/\/data.nist.gov\/od\/ds\/ark:\/88434\/mds2-2926\/Fig2\/d2.txt",
"mediaType": "text\/plain"
},
{
"downloadURL": "https:\/\/data.nist.gov\/od\/ds\/ark:\/88434\/mds2-2926\/Fig2\/d2.txt.sha256",
"mediaType": "text\/plain"
},
{
"downloadURL": "https:\/\/data.nist.gov\/od\/ds\/ark:\/88434\/mds2-2926\/Fig2\/d3.txt",
"mediaType": "text\/plain"
},
{
"downloadURL": "https:\/\/data.nist.gov\/od\/ds\/ark:\/88434\/mds2-2926\/Fig2\/d3.txt.sha256",
"mediaType": "text\/plain"
},
{
"downloadURL": "https:\/\/data.nist.gov\/od\/ds\/ark:\/88434\/mds2-2926\/Fig2\/d4.txt",
"mediaType": "text\/plain"
},
{
"downloadURL": "https:\/\/data.nist.gov\/od\/ds\/ark:\/88434\/mds2-2926\/Fig2\/d4.txt.sha256",
"mediaType": "text\/plain"
},
{
"downloadURL": "https:\/\/data.nist.gov\/od\/ds\/ark:\/88434\/mds2-2926\/Fig2\/d5.txt",
"mediaType": "text\/plain"
},
{
"downloadURL": "https:\/\/data.nist.gov\/od\/ds\/ark:\/88434\/mds2-2926\/Fig2\/d5.txt.sha256",
"mediaType": "text\/plain"
},
{
"downloadURL": "https:\/\/data.nist.gov\/od\/ds\/ark:\/88434\/mds2-2926\/Fig2\/TOC_Fig2.txt",
"mediaType": "text\/plain"
},
{
"downloadURL": "https:\/\/data.nist.gov\/od\/ds\/ark:\/88434\/mds2-2926\/Fig2\/TOC_Fig2.txt.sha256",
"mediaType": "text\/plain"
},
{
"downloadURL": "https:\/\/data.nist.gov\/od\/ds\/ark:\/88434\/mds2-2926\/Fig4\/az.txt.sha256",
"mediaType": "text\/plain"
},
{
"downloadURL": "https:\/\/data.nist.gov\/od\/ds\/ark:\/88434\/mds2-2926\/Fig4\/b1.txt",
"mediaType": "text\/plain"
},
{
"downloadURL": "https:\/\/data.nist.gov\/od\/ds\/ark:\/88434\/mds2-2926\/Fig4\/b1.txt.sha256",
"mediaType": "text\/plain"
},
{
"downloadURL": "https:\/\/data.nist.gov\/od\/ds\/ark:\/88434\/mds2-2926\/Fig4\/b2.txt",
"mediaType": "text\/plain"
},
{
"downloadURL": "https:\/\/data.nist.gov\/od\/ds\/ark:\/88434\/mds2-2926\/Fig4\/b2.txt.sha256",
"mediaType": "text\/plain"
},
{
"downloadURL": "https:\/\/data.nist.gov\/od\/ds\/ark:\/88434\/mds2-2926\/Fig4\/c1.txt",
"mediaType": "text\/plain"
},
{
"downloadURL": "https:\/\/data.nist.gov\/od\/ds\/ark:\/88434\/mds2-2926\/Fig4\/c1.txt.sha256",
"mediaType": "text\/plain"
},
{
"downloadURL": "https:\/\/data.nist.gov\/od\/ds\/ark:\/88434\/mds2-2926\/Fig4\/d1.txt",
"mediaType": "text\/plain"
}
],
"license": "https:\/\/www.nist.gov\/open\/license",
"bureauCode": [
"006:55"
],
"modified": "2023-01-24 00:00:00",
"publisher": {
"@type": "org:Organization",
"name": "National Institute of Standards and Technology"
},
"accrualPeriodicity": "irregular",
"theme": [
"Nanotechnology:Nanophysics",
"Nanotechnology:Nanophotonics",
"Nanotechnology:Nanometrology",
"Nanotechnology:Nanomechanics",
"Materials:Polymers",
"Materials:Materials characterization"
],
"issued": "2023-02-16",
"keyword": [
"Thermal noise",
"cavity optomechanical sensing",
"nanomechanical resonator",
"PTIR"
]
}
