Ultrafast Broadband Photodetectors Based on Three-Dimensional Dirac Semimetal Cd<sub>3</sub>As<sub>2</sub>

Lai, Jiawei; Wang, Qinsheng; Li, Caizhen; Ge, Shaofeng; Li, Jin-Guang; Lu, Wei; Li, Xuefeng; Ma, Jianzhong; Yu, Dapeng; Liao, Zhi-Min; Sun, Dong

doi:10.1021/acs.nanolett.6b04084

Cited by 169 publications

(161 citation statements)

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“…The interplay and related dynamical processes between carriers, phonons and other quasiparticles have strong influence on the devices performance especially when the device is running at high speed and high field limit. So far, the ultrafast spectroscopy investigations of the (quasi)particle dynamics of Cd3As2 and other 3D Dirac semimetals are still limited to visible and near/midinfrared region and the theoretical studies related to these aspects have been limited to hot carriers relaxation [22][23][24][25][26][27], photoelectric response [28], phonon dynamics and electron-phonon interactions (especially, the acoustic phonon which is dominant at very low temperature in scale of Kelvin where the electronic temperature is lower than the lowest optical phonon branch) [29][30][31][32]. The intraband carrier relaxation dynamics, intraband optical response and intraband optical conductivity of 3D Dirac semimetallic Cd3As2 remains unexplored experimentally, which are crucial for electron transport and optoelectronic operations considering the fact that semimetals are easily doped.…”

Section: Introductionmentioning

confidence: 99%

Terahertz probe of photoexcited carrier dynamics in the Dirac semimetal Cd3As2

Lu¹,

Ling²,

Xiu³

et al. 2018

Phys. Rev. B

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The relaxation dynamics of photoexcited quasiparticles of three-dimensional (3D) Dirac semimetals are vital towards their application in high performance electronic and optoelectronic devices. In this work, the relaxation dynamics of photoexcited carriers of 3D Dirac semimetal Cd3As2 are investigated by transient terahertz spectroscopy. The visible pump-THz probe spectroscopy measurement shows clear biexponential decays with two characteristic time constants. According to the pump-power and temperature dependence, these two characteristic time constants are attributed to the electron phonon coupling (1-4 ps)and anharmonic decay of hot coupled phonons to electronic uncoupled phonons (2-9 ps), respectively. An anomalous electron-optical phonon coupling reduction and a bottleneck slowing of hot optical phonons relaxation are observed with higher excitation intensities similar to that in graphene. On the other hand, the electron-optical phonon coupling can be enhanced due to the phonon frequency broadening and softening at elevated lattice temperature. Furthermore, the transient THz spectrum response is strongly modified by the phonon assisted intraband absorption of hot carriers from a pure electronic Drude model, which is evidenced by a characteristic THz absorption dip in the transient THz absorption spectrum. This absorption dip is pinned by the discrete optical phonon energy that assists the intraband transition enabled by photoexcitation of hot carriers.

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Section: Introductionmentioning

confidence: 99%

Terahertz probe of photoexcited carrier dynamics in the Dirac semimetal Cd3As2

Lu¹,

Ling²,

Xiu³

et al. 2018

Phys. Rev. B

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“…It reveals properties of the hot electrons important in high-field devices. More directly, it can guide optoelectronic applications: recently several devices have been reported that rely on the ultrafast properties of Cd 3 As 2 , the archetypal three-dimensional Dirac semimetal, to make fast photodetectors 23,24 and optical switches. 25 The monopnictide Weyl materials TaAs, TaP, and NbAs also show technological promise due to their sizable, anisotropic nonlinear-optical response.…”

Section: Introductionmentioning

confidence: 99%

“…34 The materials' optoelectronic properties thus persist from the visible through the mid-infrared. 23,25 In this work we investigate the ultrafast dynamics of four Dirac and Weyl materials: TaAs and NbP; 5,12 ZrSiS; 48 and Sr 1−y Mn 1−z Sb 2 . 49 As shown in Fig.…”

Section: Introductionmentioning

confidence: 99%

Similar ultrafast dynamics of several dissimilar Dirac and Weyl semimetals

Weber

Berggren

Masten

et al. 2017

Journal of Applied Physics

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Recent years have seen the rapid discovery of solids whose low-energy electrons have a massless, linear dispersion, such as Weyl, line-node, and Dirac semimetals. The remarkable optical properties predicted in these materials show their versatile potential for optoelectronic uses. However, little is known of their response in the picoseconds after absorbing a photon. Here we measure the ultrafast dynamics of four materials that share non-trivial band structure topology but that differ chemically, structurally, and in their low-energy band structures: ZrSiS, which hosts a Dirac line node and Dirac points; TaAs and NbP, which are Weyl semimetals; and Sr 1−y Mn 1−z Sb 2 , in which Dirac fermions coexist with broken time-reversal symmetry. After photoexcitation by a short pulse, all four relax in two stages, first sub-picosecond, and then few-picosecond. Their rapid relaxation suggests that these and related materials may be suited for optical switches and fast infrared detectors. The complex change of refractive index shows that photoexcited carrier populations persist for a few picoseconds.

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“…Due to the great potential of DMs for high‐performance optoelectronic devices, non‐equilibrium dynamics of DMs has emerged as an important research topic. Many studies have focused on the interplay between light and Dirac states and, in particular, on optical generation and control of spin‐polarized currents on TI surfaces .…”

Section: Introductionmentioning

confidence: 99%

Dynamically Induced Excitonic Instability in Pumped Dirac Materials

Pertsova

Balatsky

2020

Annalen der Physik

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Driven and non‐equilibrium quantum states of matter have attracted growing interest in both theoretical and experimental studies in condensed matter physics. Recent progress in realizing transient collective states in driven or pumped Dirac materials (DMs) is reviewed herein. In particular, the focus is on optically pumped DMs which are a promising platform for transient excitonic instabilities. Optical pumping combined with the linear (Dirac) dispersion of the electronic spectrum offers a knob for tuning the effective interaction between the photoexcited electrons and holes, and thus provides a way of reducing the critical coupling for excitonic instability. As a result, a transient excitonic condensate could be achieved in a pumped DM while it is not feasible in equilibrium. A unifying theoretical framework is provided for describing transient collective states in 2D and 3D DMs. The experimental signatures are described and numerical estimates of the size of the dynamically induced excitonic gaps and the values of the critical temperatures for several specific systems, are summarized. In addition, general guidelines for identifying promising material candidates are discussed. Finally, comments are provided regarding recent experimental efforts in realizing transient excitonic condensate in pumped DMs, and outstanding issues and possible future directions are outlined.

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Ultrafast Broadband Photodetectors Based on Three-Dimensional Dirac Semimetal Cd₃As₂

Cited by 169 publications

References 47 publications

Terahertz probe of photoexcited carrier dynamics in the Dirac semimetal Cd3As2

Terahertz probe of photoexcited carrier dynamics in the Dirac semimetal Cd3As2

Similar ultrafast dynamics of several dissimilar Dirac and Weyl semimetals

Dynamically Induced Excitonic Instability in Pumped Dirac Materials

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Ultrafast Broadband Photodetectors Based on Three-Dimensional Dirac Semimetal Cd3As2

Cited by 169 publications

References 47 publications

Terahertz probe of photoexcited carrier dynamics in the Dirac semimetal Cd3As2

Terahertz probe of photoexcited carrier dynamics in the Dirac semimetal Cd3As2

Similar ultrafast dynamics of several dissimilar Dirac and Weyl semimetals

Dynamically Induced Excitonic Instability in Pumped Dirac Materials

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Product

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Ultrafast Broadband Photodetectors Based on Three-Dimensional Dirac Semimetal Cd₃As₂