In a conventional framework, superconductivity is lost at a critical temperature ( T c ) because, at higher temperatures, gluing bosons can no longer bind two electrons into a Cooper pair. In high- T c cuprates, it is still unknown how superconductivity vanishes at T c . We provide evidence that the so-called ?70-meV kink bosons that dress the quasi-particle excitations are playing a key role in the loss of superconductivity in a cuprate. We irradiated a 170-fs laser pulse on Bi2Sr2CaCu2O8+ δ and monitored the responses of the superconducting gap and dressed quasi-particles by time- and angle-resolved photoemission spectroscopy. We observe an ultrafast loss of superconducting gap near the d -wave node, or light-induced Fermi arcs, which is accompanied by spectral broadenings and weight redistributions occurring within the kink binding energy. We discuss that the underlying mechanism of the spectral broadening that induce the Fermi arc is the undressing of quasi-particles from the kink bosons. The loss mechanism is beyond the conventional framework, and can accept the unconventional phenomena such as the signatures of Cooper pairs remaining at temperatures above T c .
展开▼
机译:在传统的框架中,超导率在临界温度(T C )丢失,因为在较高温度下,胶合玻色子不能再将两个电子粘合到COOPOR对中。在高度 c 铜替物酸盐中,仍然是未知超导性如何在t c 中消失。我们提供了所谓的?70-mev kink玻色子,穿着准粒子激发在铜酸盐中的超导损失中发挥着关键作用。我们在Bi 2 sr 2 cacu 2 O 8+Δ上进行170-fs激光脉冲并监测超导间隙和衣服准颗粒对时隙和角度分辨的光扫描光谱反应。我们观察到D-Wave节点或光诱导的费米弧附近的超导间隙的超快损失,其伴随着在Kink结合能量内发生的光谱膨胀和重量再分布。我们讨论了诱导Fermi弧的光谱扩展的潜在机制是从扭结玻色子的准粒子脱衣服。损失机制超出了传统框架,并且可以接受非传统现象,例如在T C 的温度下剩余的COOPER对的签名。
展开▼
