Abstract

The temperature sensitivity of the reflectance of MoS2 under small temperature modulations has been investigated. It is feasible to detect temperature changes of 10−2°C by monitoring the reflectance, and thus MoS2 is a potential candidate material for the pyrooptical sensors.

© 1991 Optical Society of America

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References

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  1. J. A. Wilson, A. D. Yoffe, “The Transition Metal Dichalcogenides Discussion and Interpretation of the Observed Optical, Electrical and Structural Properties,” Adv. Phys. 18, 193–335 (1969).
    [Crossref]
  2. J. A. Wilson, F. J. Di Salvo, S. Mahajan, “Charge-Density Waves and Superlattices in the Metallic Layered Transition Metal Dichalcogenides,” Adv. Phys. 24, 117–201 (1975).
    [Crossref]
  3. R. G. Dickinson, L. Pauling, “The Crystal Structure of Molybdenite,” J. Am. Chem. Soc. 45, 1466–1471 (1923).
    [Crossref]
  4. R. E. Bell, R. Herfert, “Preparation and Characterization of a New Crystalline Form of Molybdenum Disulfide,” J. Am. Chem. Soc. 79, 3351–3354 (1957).
    [Crossref]
  5. M. R. Khan, G. J. Goldsmith, “Optical, Electri-Optical and Transport Properties of MoS2,” Nuovo Cimento 2D, 665–686 (1983).
    [Crossref]
  6. R. M. A. Azzam, N. M. Bashara, Ellipsometry and Polarized Light (North-Holland, Amsterdam, 1988).
  7. J. F. Li, A. S. Bhalla, L. E. Cross, “Temperature Sensitivity of the Reflectance Coefficient of SbSI,” Ferroelectr. Lett. (to be published) 12, 1–7 (1990).
    [Crossref]

1983 (1)

M. R. Khan, G. J. Goldsmith, “Optical, Electri-Optical and Transport Properties of MoS2,” Nuovo Cimento 2D, 665–686 (1983).
[Crossref]

1975 (1)

J. A. Wilson, F. J. Di Salvo, S. Mahajan, “Charge-Density Waves and Superlattices in the Metallic Layered Transition Metal Dichalcogenides,” Adv. Phys. 24, 117–201 (1975).
[Crossref]

1969 (1)

J. A. Wilson, A. D. Yoffe, “The Transition Metal Dichalcogenides Discussion and Interpretation of the Observed Optical, Electrical and Structural Properties,” Adv. Phys. 18, 193–335 (1969).
[Crossref]

1957 (1)

R. E. Bell, R. Herfert, “Preparation and Characterization of a New Crystalline Form of Molybdenum Disulfide,” J. Am. Chem. Soc. 79, 3351–3354 (1957).
[Crossref]

1923 (1)

R. G. Dickinson, L. Pauling, “The Crystal Structure of Molybdenite,” J. Am. Chem. Soc. 45, 1466–1471 (1923).
[Crossref]

Azzam, R. M. A.

R. M. A. Azzam, N. M. Bashara, Ellipsometry and Polarized Light (North-Holland, Amsterdam, 1988).

Bashara, N. M.

R. M. A. Azzam, N. M. Bashara, Ellipsometry and Polarized Light (North-Holland, Amsterdam, 1988).

Bell, R. E.

R. E. Bell, R. Herfert, “Preparation and Characterization of a New Crystalline Form of Molybdenum Disulfide,” J. Am. Chem. Soc. 79, 3351–3354 (1957).
[Crossref]

Bhalla, A. S.

J. F. Li, A. S. Bhalla, L. E. Cross, “Temperature Sensitivity of the Reflectance Coefficient of SbSI,” Ferroelectr. Lett. (to be published) 12, 1–7 (1990).
[Crossref]

Cross, L. E.

J. F. Li, A. S. Bhalla, L. E. Cross, “Temperature Sensitivity of the Reflectance Coefficient of SbSI,” Ferroelectr. Lett. (to be published) 12, 1–7 (1990).
[Crossref]

Di Salvo, F. J.

J. A. Wilson, F. J. Di Salvo, S. Mahajan, “Charge-Density Waves and Superlattices in the Metallic Layered Transition Metal Dichalcogenides,” Adv. Phys. 24, 117–201 (1975).
[Crossref]

Dickinson, R. G.

R. G. Dickinson, L. Pauling, “The Crystal Structure of Molybdenite,” J. Am. Chem. Soc. 45, 1466–1471 (1923).
[Crossref]

Goldsmith, G. J.

M. R. Khan, G. J. Goldsmith, “Optical, Electri-Optical and Transport Properties of MoS2,” Nuovo Cimento 2D, 665–686 (1983).
[Crossref]

Herfert, R.

R. E. Bell, R. Herfert, “Preparation and Characterization of a New Crystalline Form of Molybdenum Disulfide,” J. Am. Chem. Soc. 79, 3351–3354 (1957).
[Crossref]

Khan, M. R.

M. R. Khan, G. J. Goldsmith, “Optical, Electri-Optical and Transport Properties of MoS2,” Nuovo Cimento 2D, 665–686 (1983).
[Crossref]

Li, J. F.

J. F. Li, A. S. Bhalla, L. E. Cross, “Temperature Sensitivity of the Reflectance Coefficient of SbSI,” Ferroelectr. Lett. (to be published) 12, 1–7 (1990).
[Crossref]

Mahajan, S.

J. A. Wilson, F. J. Di Salvo, S. Mahajan, “Charge-Density Waves and Superlattices in the Metallic Layered Transition Metal Dichalcogenides,” Adv. Phys. 24, 117–201 (1975).
[Crossref]

Pauling, L.

R. G. Dickinson, L. Pauling, “The Crystal Structure of Molybdenite,” J. Am. Chem. Soc. 45, 1466–1471 (1923).
[Crossref]

Wilson, J. A.

J. A. Wilson, F. J. Di Salvo, S. Mahajan, “Charge-Density Waves and Superlattices in the Metallic Layered Transition Metal Dichalcogenides,” Adv. Phys. 24, 117–201 (1975).
[Crossref]

J. A. Wilson, A. D. Yoffe, “The Transition Metal Dichalcogenides Discussion and Interpretation of the Observed Optical, Electrical and Structural Properties,” Adv. Phys. 18, 193–335 (1969).
[Crossref]

Yoffe, A. D.

J. A. Wilson, A. D. Yoffe, “The Transition Metal Dichalcogenides Discussion and Interpretation of the Observed Optical, Electrical and Structural Properties,” Adv. Phys. 18, 193–335 (1969).
[Crossref]

Adv. Phys. (2)

J. A. Wilson, A. D. Yoffe, “The Transition Metal Dichalcogenides Discussion and Interpretation of the Observed Optical, Electrical and Structural Properties,” Adv. Phys. 18, 193–335 (1969).
[Crossref]

J. A. Wilson, F. J. Di Salvo, S. Mahajan, “Charge-Density Waves and Superlattices in the Metallic Layered Transition Metal Dichalcogenides,” Adv. Phys. 24, 117–201 (1975).
[Crossref]

J. Am. Chem. Soc. (2)

R. G. Dickinson, L. Pauling, “The Crystal Structure of Molybdenite,” J. Am. Chem. Soc. 45, 1466–1471 (1923).
[Crossref]

R. E. Bell, R. Herfert, “Preparation and Characterization of a New Crystalline Form of Molybdenum Disulfide,” J. Am. Chem. Soc. 79, 3351–3354 (1957).
[Crossref]

Nuovo Cimento (1)

M. R. Khan, G. J. Goldsmith, “Optical, Electri-Optical and Transport Properties of MoS2,” Nuovo Cimento 2D, 665–686 (1983).
[Crossref]

Other (2)

R. M. A. Azzam, N. M. Bashara, Ellipsometry and Polarized Light (North-Holland, Amsterdam, 1988).

J. F. Li, A. S. Bhalla, L. E. Cross, “Temperature Sensitivity of the Reflectance Coefficient of SbSI,” Ferroelectr. Lett. (to be published) 12, 1–7 (1990).
[Crossref]

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Figures (4)

Fig. 1
Fig. 1

Refractive index n as a function of photon energy at 36, 50, 66, and 75°C.

Fig. 2
Fig. 2

Temperature derivative of the refractive index as a function of photon energy.

Fig. 3
Fig. 3

Dependence of the changing reflectance coefficient on the amplitude of the ac temperature modulation at a base temperature of 32°C, a photon energy of 2.02 eV, and a frequency of 2.7 Hz.

Fig. 4
Fig. 4

(a) Modulation of the reflectance coefficient under a 2.7-Hz temperature modulation of 0.03°C; (b) the temperature modulation.

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