Standard photonic (quantum) thermometry in the UK

Graham Machin; Nicola Agnew; Anoma Yamsiri; Aidan Arnold; Erling Riis; Stephen Sweeney

doi:10.1016/j.measen.2024.101775

Standard photonic (quantum) thermometry in the UK

Graham Machin^*, Nicola Agnew, Anoma Yamsiri, Aidan Arnold, Erling Riis, Stephen Sweeney

^*Corresponding author for this work

Research output: Contribution to journal › Conference article › peer-review

4 Citations (Scopus)

Abstract

Two emerging developments in photon based (quantum) thermometry are described, namely, active ring-resonator thermometry (ARRT) and small-scale practical Doppler broadening thermometry (pDBT). These developments are sensing methodologies that are frequency based and directly linked to the physics of the measurement approach. Through relying on the physics instead of external calibration to provide reliable thermometry direct traceability to the kelvin is obtained. The medium-term objective of this work is to develop practical primary thermometers that need no external calibration, having modest uncertainties (0.1–1 K) but able to provide reliable thermodynamic temperatures, during the lifetime of the required measurements. The long-term objective is to develop these (and possibly other) photon-based practical primary temperature measurement methods that can be widely deployed, supplanting conventional techniques but providing reliable permanent traceability to the kelvin in the measurement setting.

Original language	English
Article number	101775
Number of pages	4
Journal	Measurement: Sensors
Volume	38
Issue number	Supplement
Early online date	10 Jan 2025
DOIs	https://doi.org/10.1016/j.measen.2024.101775
Publication status	E-pub ahead of print - 10 Jan 2025
Event	XXIV IMEKO World Congress - Hamburg, Germany Duration: 26 Aug 2024 → 29 Aug 2024

Funding

The PhD studentships were iCASE studentships with NPL; Anoma Yamsiri under UKRI iCASE studentship grant EP/T517616/1 (project 2287899) and Nicola Agnew under UKRI iCASE studentship grant EP/X525017/1. The preparation of this paper and presentation at the conference were supported by the UK Quantum Technologies Programme.

Keywords

Quantum thermometry
Photonic thermometry
Ring-resonator thermometry
Doppler broadening thermometry
Kelvin
Thermodynamic temperature

Access to Document

10.1016/j.measen.2024.101775Licence: Unspecified

Machin-etal-2025-Standard-photonic-quantum-thermometry-in-the-UKFinal published version, 913 KBLicence: Unspecified

Cite this

@article{9e2c3dd757f84ff29d7cb160670849a6,

title = "Standard photonic (quantum) thermometry in the UK",

abstract = "Two emerging developments in photon based (quantum) thermometry are described, namely, active ring-resonator thermometry (ARRT) and small-scale practical Doppler broadening thermometry (pDBT). These developments are sensing methodologies that are frequency based and directly linked to the physics of the measurement approach. Through relying on the physics instead of external calibration to provide reliable thermometry direct traceability to the kelvin is obtained. The medium-term objective of this work is to develop practical primary thermometers that need no external calibration, having modest uncertainties (0.1–1 K) but able to provide reliable thermodynamic temperatures, during the lifetime of the required measurements. The long-term objective is to develop these (and possibly other) photon-based practical primary temperature measurement methods that can be widely deployed, supplanting conventional techniques but providing reliable permanent traceability to the kelvin in the measurement setting.",

keywords = "Quantum thermometry, Photonic thermometry, Ring-resonator thermometry, Doppler broadening thermometry, Kelvin, Thermodynamic temperature",

author = "Graham Machin and Nicola Agnew and Anoma Yamsiri and Aidan Arnold and Erling Riis and Stephen Sweeney",

year = "2025",

month = jan,

day = "10",

doi = "10.1016/j.measen.2024.101775",

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volume = "38",

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note = "XXIV IMEKO World Congress ; Conference date: 26-08-2024 Through 29-08-2024",

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T1 - Standard photonic (quantum) thermometry in the UK

AU - Machin, Graham

AU - Agnew, Nicola

AU - Yamsiri, Anoma

AU - Arnold, Aidan

AU - Riis, Erling

AU - Sweeney, Stephen

PY - 2025/1/10

Y1 - 2025/1/10

N2 - Two emerging developments in photon based (quantum) thermometry are described, namely, active ring-resonator thermometry (ARRT) and small-scale practical Doppler broadening thermometry (pDBT). These developments are sensing methodologies that are frequency based and directly linked to the physics of the measurement approach. Through relying on the physics instead of external calibration to provide reliable thermometry direct traceability to the kelvin is obtained. The medium-term objective of this work is to develop practical primary thermometers that need no external calibration, having modest uncertainties (0.1–1 K) but able to provide reliable thermodynamic temperatures, during the lifetime of the required measurements. The long-term objective is to develop these (and possibly other) photon-based practical primary temperature measurement methods that can be widely deployed, supplanting conventional techniques but providing reliable permanent traceability to the kelvin in the measurement setting.

AB - Two emerging developments in photon based (quantum) thermometry are described, namely, active ring-resonator thermometry (ARRT) and small-scale practical Doppler broadening thermometry (pDBT). These developments are sensing methodologies that are frequency based and directly linked to the physics of the measurement approach. Through relying on the physics instead of external calibration to provide reliable thermometry direct traceability to the kelvin is obtained. The medium-term objective of this work is to develop practical primary thermometers that need no external calibration, having modest uncertainties (0.1–1 K) but able to provide reliable thermodynamic temperatures, during the lifetime of the required measurements. The long-term objective is to develop these (and possibly other) photon-based practical primary temperature measurement methods that can be widely deployed, supplanting conventional techniques but providing reliable permanent traceability to the kelvin in the measurement setting.

KW - Quantum thermometry

KW - Photonic thermometry

KW - Ring-resonator thermometry

KW - Doppler broadening thermometry

KW - Kelvin

KW - Thermodynamic temperature

UR - https://www.imeko2024.org/home

U2 - 10.1016/j.measen.2024.101775

DO - 10.1016/j.measen.2024.101775

M3 - Conference article

SN - 2665-9174

VL - 38

JO - Measurement: Sensors

JF - Measurement: Sensors

IS - Supplement

M1 - 101775

T2 - XXIV IMEKO World Congress

Y2 - 26 August 2024 through 29 August 2024

ER -

Standard photonic (quantum) thermometry in the UK

Abstract

Funding

Keywords

Access to Document

Other files and links

Fingerprint

NPL-EPSRC industrial-CASE PhD studentship: Primary thermometry for in-situ traceability (Nicola Agnew)

Industrial CASE Account - University of Strathclyde 2022 | Agnew, Nicola

Cite this

Standard photonic (quantum) thermometry in the UK

Abstract

Funding

Keywords

Access to Document

Other files and links

Fingerprint

Projects

NPL-EPSRC industrial-CASE PhD studentship: Primary thermometry for in-situ traceability (Nicola Agnew)

Industrial CASE Account - University of Strathclyde 2022 | Agnew, Nicola

Cite this