Thermal characterization of n-type silicon based on an electro-acoustic analogy

Stanojević, Neda; Markushev, Dragana K.; Aleksić, Sanja M.; Pantić, Dragan S.; Galović, Slobodanka; Markushev, Dragan D.; Ordonez-Miranda, Jose

doi:10.1063/5.0152495

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Stanojević, Neda
Markushev, Dragana K.

Ordonez-Miranda, Jose

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Abstract

Based on the analogy between resistor-capacitor (RC) filters and the thermoelastic component of a photoacoustic signal, the complex thermoelastic response of an open photoacoustic cell is described as a simple linear time-invariant system of a low-pass RC filter. This description is done by finding a linear relation between the thermoelastic cut-off frequency and sample material thickness within the range of 10-1000 μm. Based on the theory of a composite piston, we run numerical simulations of the proposed method for n-type silicon, described as either a surface or volume absorber. Theoretical predictions are experimentally validated by using an open photoacoustic cell setup to record the signal of an 850-μm-thick n-type silicon wafer illuminated by a blue light source modulated with frequencies from 20 Hz to 20 kHz. The obtained experimental results confirm the linear dependence of the thermoelastic cut-off frequency on the sample thickness, and, therefore, they lay the foundation of ...

Keywords:

Frequency response / Invariance / Light sources / Linear time-invariant system / Silicon wafers / Thermoelasticity / Time varying control systems

Source:
Journal of Applied Physics, 2023, 133, 24, 245102-

Funding / projects:

Ministry of Science, Technological Development, and Innovations of the Republic of Serbia [660-01-00015/69]

Note:

Peer-reviewed manuscript: https://vinar.vin.bg.ac.rs/handle/123456789/11212

DOI: 10.1063/5.0152495

ISSN: 0021-8979

WoS: 001019515900011

Scopus: 2-s2.0-85163702415

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https://vinar.vin.bg.ac.rs/handle/123456789/11211

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Vinča

TY  - JOUR
AU  - Stanojević, Neda
AU  - Markushev, Dragana K.
AU  - Aleksić, Sanja M.
AU  - Pantić, Dragan S.
AU  - Galović, Slobodanka
AU  - Markushev, Dragan D.
AU  - Ordonez-Miranda, Jose
PY  - 2023
UR  - https://vinar.vin.bg.ac.rs/handle/123456789/11211
AB  - Based on the analogy between resistor-capacitor (RC) filters and the thermoelastic component of a photoacoustic signal, the complex thermoelastic response of an open photoacoustic cell is described as a simple linear time-invariant system of a low-pass RC filter. This description is done by finding a linear relation between the thermoelastic cut-off frequency and sample material thickness within the range of 10-1000 μm. Based on the theory of a composite piston, we run numerical simulations of the proposed method for n-type silicon, described as either a surface or volume absorber. Theoretical predictions are experimentally validated by using an open photoacoustic cell setup to record the signal of an 850-μm-thick n-type silicon wafer illuminated by a blue light source modulated with frequencies from 20 Hz to 20 kHz. The obtained experimental results confirm the linear dependence of the thermoelastic cut-off frequency on the sample thickness, and, therefore, they lay the foundation of a new method for the thermal characterization of materials. © 2023 Author(s).
T2  - Journal of Applied Physics
T1  - Thermal characterization of n-type silicon based on an electro-acoustic analogy
VL  - 133
IS  - 24
SP  - 245102
DO  - 10.1063/5.0152495
ER  -

@article{
author = "Stanojević, Neda and Markushev, Dragana K. and Aleksić, Sanja M. and Pantić, Dragan S. and Galović, Slobodanka and Markushev, Dragan D. and Ordonez-Miranda, Jose",
year = "2023",
abstract = "Based on the analogy between resistor-capacitor (RC) filters and the thermoelastic component of a photoacoustic signal, the complex thermoelastic response of an open photoacoustic cell is described as a simple linear time-invariant system of a low-pass RC filter. This description is done by finding a linear relation between the thermoelastic cut-off frequency and sample material thickness within the range of 10-1000 μm. Based on the theory of a composite piston, we run numerical simulations of the proposed method for n-type silicon, described as either a surface or volume absorber. Theoretical predictions are experimentally validated by using an open photoacoustic cell setup to record the signal of an 850-μm-thick n-type silicon wafer illuminated by a blue light source modulated with frequencies from 20 Hz to 20 kHz. The obtained experimental results confirm the linear dependence of the thermoelastic cut-off frequency on the sample thickness, and, therefore, they lay the foundation of a new method for the thermal characterization of materials. © 2023 Author(s).",
journal = "Journal of Applied Physics",
title = "Thermal characterization of n-type silicon based on an electro-acoustic analogy",
volume = "133",
number = "24",
pages = "245102",
doi = "10.1063/5.0152495"
}

Stanojević, N., Markushev, D. K., Aleksić, S. M., Pantić, D. S., Galović, S., Markushev, D. D.,& Ordonez-Miranda, J.. (2023). Thermal characterization of n-type silicon based on an electro-acoustic analogy. in Journal of Applied Physics, 133(24), 245102.
https://doi.org/10.1063/5.0152495

Stanojević N, Markushev DK, Aleksić SM, Pantić DS, Galović S, Markushev DD, Ordonez-Miranda J. Thermal characterization of n-type silicon based on an electro-acoustic analogy. in Journal of Applied Physics. 2023;133(24):245102.
doi:10.1063/5.0152495 .

Stanojević, Neda, Markushev, Dragana K., Aleksić, Sanja M., Pantić, Dragan S., Galović, Slobodanka, Markushev, Dragan D., Ordonez-Miranda, Jose, "Thermal characterization of n-type silicon based on an electro-acoustic analogy" in Journal of Applied Physics, 133, no. 24 (2023):245102,
https://doi.org/10.1063/5.0152495 . .