Low-temperature ultrafast optical probing of topological bismuth selenide

•Explored the linear and nonlinear optical interaction in the Bi2Se3 single-crystal cleaved flake.•Kramer’s Kronig approach and DFT calculations confirm the prominent 2 eV OBT from the Ɛ1 and Ɛ2 simulations.•Concurrently, the TRUS measurements are done to explore the excited-state dynamics of the st...

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Bibliographic Details
Published in:Journal of alloys and compounds 2021-12, Vol.886, p.161235, Article 161235
Main Authors: Sharma, Prince, Sharma, Rahul, Awana, V.P.S., Narayanan, T.N., Gupta, Bipin Kumar, Vashistha, Nikita, Tyagi, Lavi, Kumar, Mahesh
Format: Article
Language:English
Subjects:
And low-temperature ultrafast transient reflection spectroscopy
Bismuth
Density functional theory
Excitation
Fluence
Low temperature
Moss-Burstein effect
Near infrared radiation
Optical properties
Optical transitions (OBT)
Pauli blocking
Photoluminescence
Room temperature
Single crystals
Spectrum analysis
Temperature dependence
Topological Insulators
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Summary:•Explored the linear and nonlinear optical interaction in the Bi2Se3 single-crystal cleaved flake.•Kramer’s Kronig approach and DFT calculations confirm the prominent 2 eV OBT from the Ɛ1 and Ɛ2 simulations.•Concurrently, the TRUS measurements are done to explore the excited-state dynamics of the states populating due to the Moss-Burstein shifts.•With the same excitation, probing in the NIR region shows the occurrence of the Pauli blocking.•The low temperature study give a clear evidence of presence of second surface state and a broad absorbance of 1.2 eV can be easily seen through TRUS. [Display omitted] We report the optical response and temperature-dependent excited-state carrier dynamics in the flake of Bi2Se3, which is cleaved from its single crystal. The optical properties are explored using the visible-near infrared (VIS-NIR), infrared (IR), and photoluminescence (PL) spectroscopies. The VIS-NIR spectra are then used to find the Ɛ1 and Ɛ2 using Kramer’s Koning relations, confirming OBT of 2 eV and 1.4 eV. The DFT (density functional theory) calculations are also carried out to confirm the experimental optical transitions (OBT). To probe these OBT in the bismuth selenide, we have studied the temperature, fluence, and excitation dependent ultrafast transient reflectance over a wide spectral range from 2.58–0.77 eV (VIS-NIR) with different excitation energies 3.02 eV, 2.61 eV, 1.9 eV, and 1.4 eV to explore several previously unseen transitions that do not appear in PL spectroscopy and room temperature carrier analysis. The temperature-dependent excited-state dynamics are investigated at 5–300 K. This study clearly indicates the existence of Moss-Burstein shift in the visible region and Pauli blocking effect in the NIR region in the Bi2Se3 topological insulator. Moreover, the low-temperature TRUS confirms the transition to the second surface state present in bismuth selenide.
ISSN:0925-8388
1873-4669
DOI:10.1016/j.jallcom.2021.161235