2021
DOI: 10.1021/acsnano.1c01301
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Manipulation of Stacking Order in Td-WTe2 by Ultrafast Optical Excitation

Abstract: Subtle changes in stacking order of layered transition metal dichalcogenides may have profound influence on the electronic and optical properties. The intriguing electronic properties of Td -WTe 2 can be traced to the break of inversion symmetry resulting from the ground-state stacking sequence. Strategies for perturbation of the stacking order are actively pursued for intentional tuning of material properties, where optical excitation is of specific interest since… Show more

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Cited by 23 publications
(25 citation statements)
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References 49 publications
(126 reference statements)
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“…Transient changes of lattice symmetry in such atomically thin two-dimensional (2D) ferroelectric semimetals, and thus the suppression of ferroelectric polarizations, has been realized in T d -WTe 2 and T d -MoTe 2 on subpicosecond scales via the excitation of phase-determining interlayer shearing mode by intense visible to THz pulses. Ultrafast symmetry switching in centrosymmetric 1T’-MoTe 2 has also been achieved via excitation of the interlayer shearing mode . Besides promising applications in ultrafast switching, the corresponding inversion symmetry breaking in these materials also splits their degenerate Dirac fermions into paired topologically protected Weyl fermions of opposite chirality. They are effectively separated monopoles of Berry curvatures that cause exotic physics such as axial magnetoelectric coupling , and chiral anomaly, which can be precisely controlled via tuning of their lattice symmetry and thus the ferroelectric polarizations .…”
mentioning
confidence: 99%
“…Transient changes of lattice symmetry in such atomically thin two-dimensional (2D) ferroelectric semimetals, and thus the suppression of ferroelectric polarizations, has been realized in T d -WTe 2 and T d -MoTe 2 on subpicosecond scales via the excitation of phase-determining interlayer shearing mode by intense visible to THz pulses. Ultrafast symmetry switching in centrosymmetric 1T’-MoTe 2 has also been achieved via excitation of the interlayer shearing mode . Besides promising applications in ultrafast switching, the corresponding inversion symmetry breaking in these materials also splits their degenerate Dirac fermions into paired topologically protected Weyl fermions of opposite chirality. They are effectively separated monopoles of Berry curvatures that cause exotic physics such as axial magnetoelectric coupling , and chiral anomaly, which can be precisely controlled via tuning of their lattice symmetry and thus the ferroelectric polarizations .…”
mentioning
confidence: 99%
“…We find giant values for Q 0 in our leadingorder theory considering realistic experimental values for laser intensity and carrier doping. The saturation value of shear phonon displacement measured to be around Q max ∼ 8pm in layered WTe 2 using intense infrared laser with electric field strength E 0 ∼ 7.5MV/cm [34] and E 0 ∼ 10MV/cm [38]. Although the earlier experiment [34] does not support a Raman mechanism, the later [38] measures a linear power dependence of the shear displacement consistent with the Raman force F D ∝ E 2 0 .…”
mentioning
confidence: 80%
“…The stimulated Raman effect is an efficient mechanism to excite Ramanactive vibrational modes [32,33]. The photo-induced structural transition in layered quantum materials such as multilayer graphene, WTe 2 , and MoTe 2 is rapidly evolving using the ultrafast pump-probe setup and time-resolved second-harmonic-generation spectroscopy [34][35][36][37][38]. Shear phonon dynamics can manipulate the staking order of layers [35,38] and the electronic topology [34].…”
mentioning
confidence: 99%
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“…The a-axis interlayer shear mode (ISM) has been studied for its relevance in identifying the T d phase and in modulating its Weyl semimetal properties. These studies include Raman spectroscopy in MoTe 2 [13][14][15][16][17] and WTe 2 [18][19][20], and various ultrafast spectroscopy techniques in MoTe 2 [21][22][23][24] and WTe 2 [23,[25][26][27][28][29][30]. Raman spectroscopy, however, is limited to measuring the zonecenter energy hω m (i.e., the maximum of the ISM dispersion), and only in the T d phase (for bulk samples) is this mode Raman-active.…”
Section: Introductionmentioning
confidence: 99%