Research Progress on Heat Transfer Theory in Ultra-Fast Laser Heating Technology

Huili Lü; Yudong Mao; Mingzhi Yu; Kaimin Yang; Fang Liu; Yuancheng Wang

doi:10.3788/LOP57.010005

Journals >Laser & Optoelectronics Progress >Volume 57 >Issue 1 >Page 010005 > Article

Laser & Optoelectronics Progress
Vol. 57, Issue 1, 010005 (2020)

Research Progress on Heat Transfer Theory in Ultra-Fast Laser Heating Technology

Huili Lü, Yudong Mao^*, Mingzhi Yu, Kaimin Yang, Fang Liu, and Yuancheng Wang

Author Affiliations

Department of Thermal Engineering, Shandong Jianzhu University, Jinan, Shandong 250101, China

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DOI: 10.3788/LOP57.010005 Cite this Article Set citation alerts

Huili Lü, Yudong Mao, Mingzhi Yu, Kaimin Yang, Fang Liu, Yuancheng Wang. Research Progress on Heat Transfer Theory in Ultra-Fast Laser Heating Technology[J]. Laser & Optoelectronics Progress, 2020, 57(1): 010005 Copy Citation Text

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Fig. 1. Temperatures of front and back surfaces of film^[35]. (a) Electron temperature; (b) phonon temperature

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Fig. 2. Effective-thermal conductivities k_eff of thin films obtained by LBM, Alvarez et al^[51], Amon et al.^[52], Liu et al^[53], and Zhang et al^[54]

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Fourier heatconduction model	CV heatconduction model	Phonon-electron interactionof PTS model	Phonon-electroninteraction of HTS model	DPL
0	$\begin{matrix} \frac{α}{C^{2}} \end{matrix}$	$\begin{matrix} \frac{1}{G} \end{matrix} \begin{matrix} {(\frac{1}{C_{e}} + \frac{1}{C_{l}})}^{- 1} \end{matrix}$	τ_F+ $\begin{matrix} \frac{1}{G} \end{matrix} \begin{matrix} {(\frac{1}{C_{e}} + \frac{1}{C_{l}})}^{- 1} \end{matrix}$	τ_q
0	0	$\begin{matrix} \frac{C_{l}}{G} \end{matrix}$	$\begin{matrix} \frac{C_{l}}{G} \end{matrix}$	τ_T
α	0	$\begin{matrix} \frac{λ}{C_{e} + C_{l}} \end{matrix}$	$\begin{matrix} \frac{λ}{C_{e} + C_{l}} \end{matrix}$	α

Table 1. Correspondence among Fourier heat conduction model, CV heat conduction model, micro two-step heat conduction model, and DPL^[36]

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