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Ultrafast Martensitic Phase Transition Driven by Intense Terahertz Pulses

B. Q. Song, Yang Xu, C. Sundahl, Jong‐Hoon Kang, Martin Mootz, Yongxin Yao, I. E. Perakis, Liang Luo, Chang‐Beom Eom, Jigang Wang

2023Ultrafast Science27 citationsDOIOpen Access PDF

Abstract

We report on an ultrafast nonequilibrium phase transition with a strikingly long-lived martensitic anomaly driven by above-threshold single-cycle terahertz pulses with a peak field of more than 1 MV/cm. A nonthermal, terahertz-induced depletion of low-frequency conductivity in Nb 3 Sn indicates increased gap splitting of high-energy Γ 12 bands by removal of their degeneracies, which induces the martensitic phase above their equilibrium transition temperature. In contrast, optical pumping leads to a Γ 12 gap thermal melting. Such light-induced nonequilibrium martensitic phase exhibits a substantially enhanced critical temperature up to ∼100 K, i.e., more than twice the equilibrium temperature, and can be stabilized beyond technologically relevant, nanosecond time scales. Together with first-principle simulations, we identify a compelling terahertz tuning mechanism of structural order via Γ 12 phonons to achieve the ultrafast phase transition to a metastable electronic state out of equilibrium at high temperatures far exceeding those for equilibrium states.

Topics & Concepts

Terahertz radiationMaterials scienceCondensed matter physicsPhase transitionNanosecondMetastabilityUltrashort pulsePhononThermal equilibriumThermodynamic equilibriumNon-equilibrium thermodynamicsPhase (matter)MartensiteLaserOptoelectronicsOpticsThermodynamicsPhysicsMicrostructureQuantum mechanicsMetallurgyPhysics of Superconductivity and MagnetismAdvanced Thermoelectric Materials and DevicesTopological Materials and Phenomena