Magnetic Order-Induced Polarization Anomaly of Raman Scattering in 2D Magnet CrI<sub>3</sub>

Zhang, Yujun; Wu, Xiaohua; Lyu, Bingbing; Wu, Minghui; Zhao, Shixuan; Chen, Junyang; Jia, Mengyuan; Zhang, Chusheng; Wang, Le; Wang, Xinwei; Chen, Yuanzhen; Mei, Jia-Wei; Taniguchi, Takashi; Watanabe, Kenji; Yan, Hugen; Liu, Qihang; Huang, Li; Zhao, Yüe; Huang, Mingyuan

doi:10.1021/acs.nanolett.9b04634

Cited by 58 publications

(66 citation statements)

References 50 publications

(87 reference statements)

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“…2a. The 1st-order single-phonon peaks appear in the relatively low frequency range of 50-150 cm −1 , and are assigned to be of either A g or E g symmetries under the C 3i point group (see Supplementary Note 1), which is consistent with earlier work 34,[37][38][39][40][41][42][43][44] and proves the high quality of our samples. The 2nd-order two-phonon and the 3rd-order three-phonon modes show up in slightly higher frequency ranges of 190-290 cm −1 and 310-410 cm −1 , respectively, and show decreasing mode intensities at higher-order processes, same as typical multiphonon overtones under harmonic approximation 45 or cascade model 46 .…”

Section: Resultssupporting

confidence: 91%

“…Figure 2a displays a representative Raman spectrum acquired in the crossed linear polarization channel at 40 K (slightly below T C = 45 K). Note that this spectrum covers a much wider frequency range than earlier Raman studies on CrI 3 34,[37][38][39][40][41][42][43][44] . The multiphonon scattering is visible up to the 3rd order, and their zoom-in Raman spectra are shown in the inset of Fig.…”

Section: Resultsmentioning

confidence: 93%

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Observation of the polaronic character of excitons in a two-dimensional semiconducting magnet CrI3

Jin

Kim

et al. 2020

Nat Commun

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Exciton dynamics can be strongly affected by lattice vibrations through electron-phonon coupling. This is rarely explored in two-dimensional magnetic semiconductors. Focusing on bilayer CrI3, we first show the presence of strong electron-phonon coupling through temperature-dependent photoluminescence and absorption spectroscopy. We then report the observation of periodic broad modes up to the 8th order in Raman spectra, attributed to the polaronic character of excitons. We establish that this polaronic character is dominated by the coupling between the charge-transfer exciton at 1.96 eV and a longitudinal optical phonon at 120.6 cm−1. We further show that the emergence of long-range magnetic order enhances the electron-phonon coupling strength by ~50% and that the transition from layered antiferromagnetic to ferromagnetic order tunes the spectral intensity of the periodic broad modes, suggesting a strong coupling among the lattice, charge and spin in two-dimensional CrI3. Our study opens opportunities for tailoring light-matter interactions in two-dimensional magnetic semiconductors.

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Section: Resultssupporting

confidence: 91%

Section: Resultsmentioning

confidence: 93%

Observation of the polaronic character of excitons in a two-dimensional semiconducting magnet CrI3

Jin

Kim

et al. 2020

Nat Commun

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“…Of note, the origins of P 1 and P 2 as zone-folded phonons predict they would disappear for a monolayer sample (no zone-folding) or a sample with an odd number of layers because the AFM state preserves inversion symmetry with an odd number of layers. Recent work 41 , 42 has shown P 1 and P 2 are not present in monolayers of CrI 3 , yet data by Jin et al 34 suggests the presence of P 1 and P 2 for odd layer thicknesses. One possibility is that the encapsulation of thin layers of CrI 3 in hBN breaks inversion symmetry naturally, leading to the presence of P 1 and P 2 in all thicknesses.…”

Section: Discussionmentioning

confidence: 97%

Distinct magneto-Raman signatures of spin-flip phase transitions in CrI3

et al. 2020

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The discovery of 2-dimensional (2D) materials, such as CrI 3 , that retain magnetic ordering at monolayer thickness has resulted in a surge of both pure and applied research in 2D magnetism. Here, we report a magneto-Raman spectroscopy study on multilayered CrI 3 , focusing on two additional features in the spectra that appear below the magnetic ordering temperature and were previously assigned to high frequency magnons. Instead, we conclude these modes are actually zone-folded phonons. We observe a striking evolution of the Raman spectra with increasing magnetic field applied perpendicular to the atomic layers in which clear, sudden changes in intensities of the modes are attributed to the interlayer ordering changing from antiferromagnetic to ferromagnetic at a critical magnetic field. Our work highlights the sensitivity of the Raman modes to weak interlayer spin ordering in CrI 3 .

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“…The main Raman peaks are significantly higher in the parallel (VV) direction than in the cross‐polarization channels (VH) direction (Figure 2d), and the ratios (VH/VV) of each peak are 0.36, 0.31, 0.35, 0.39, 0.41, and 0.55, respectively (Figure 2d). [ 35 ] The ratio is closer to 0.75, indicating that the polarization characteristics of scattered radiation are stronger and NbS 3 has significant anisotropic characteristics. A typical azimuth‐dependent reflectance difference microscopy (ADRDM) measurement of a 2D NbS 3 flakes (Figure S4, Supporting Information) further demonstrates the in‐plane anisotropic optical reflection.…”

Section: Figurementioning

confidence: 93%

Air‐Stable Low‐Symmetry Narrow‐Bandgap 2D Sulfide Niobium for Polarization Photodetection

Wang

et al. 2020

Advanced Materials

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Low‐symmetry 2D materials with unique anisotropic optical and optoelectronic characteristics have attracted a lot of interest in fundamental research and manufacturing of novel optoelectronic devices. Exploring new and low‐symmetry narrow‐bandgap 2D materials will be rewarding for the development of nanoelectronics and nano‐optoelectronics. Herein, sulfide niobium (NbS3), a novel transition metal trichalcogenide semiconductor with low‐symmetry structure, is introduced into a narrowband 2D material with strong anisotropic physical properties both experimentally and theoretically. The indirect bandgap of NbS3 with highly anisotropic band structures slowly decreases from 0.42 eV (monolayer) to 0.26 eV (bulk). Moreover, NbS3 Schottky photodetectors have excellent photoelectric performance, which enables fast photoresponse (11.6 µs), low specific noise current (4.6 × 10−25 A2 Hz−1), photoelectrical dichroic ratio (1.84) and high‐quality reflective polarization imaging (637 nm and 830 nm). A room‐temperature specific detectivity exceeding 107 Jones can be obtained at the wavelength of 3 µm. These excellent unique characteristics will make low‐symmetry narrow‐bandgap 2D materials become highly competitive candidates for future anisotropic optical investigations and mid‐infrared optoelectronic applications.

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Magnetic Order-Induced Polarization Anomaly of Raman Scattering in 2D Magnet CrI₃

Cited by 58 publications

References 50 publications

Observation of the polaronic character of excitons in a two-dimensional semiconducting magnet CrI3

Observation of the polaronic character of excitons in a two-dimensional semiconducting magnet CrI3

Distinct magneto-Raman signatures of spin-flip phase transitions in CrI3

Air‐Stable Low‐Symmetry Narrow‐Bandgap 2D Sulfide Niobium for Polarization Photodetection

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Magnetic Order-Induced Polarization Anomaly of Raman Scattering in 2D Magnet CrI3

Cited by 58 publications

References 50 publications

Observation of the polaronic character of excitons in a two-dimensional semiconducting magnet CrI3

Observation of the polaronic character of excitons in a two-dimensional semiconducting magnet CrI3

Distinct magneto-Raman signatures of spin-flip phase transitions in CrI3

Air‐Stable Low‐Symmetry Narrow‐Bandgap 2D Sulfide Niobium for Polarization Photodetection

Contact Info

Product

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About

Magnetic Order-Induced Polarization Anomaly of Raman Scattering in 2D Magnet CrI₃