Mechanical strain is a powerful tuning knob for excitons, Coulomb-bound electron–hole complexes dominating optical properties of two-dimensional semiconductors. While the strain response of bright free excitons is broadly understood, the behaviour of dark free excitons (long-lived excitations that generally do not couple to light due to spin and momentum conservation) or localized excitons related to defects remains mostly unexplored. Here, we study the strain behaviour of these fragile many-body states on pristine suspended WSe2 kept at cryogenic temperatures. We find that under the application of strain, dark and localized excitons in monolayer WSe2—a prototypical 2D semiconductor—are brought into energetic resonance, forming a new hybrid state that inherits the properties of the constituent species. The characteristics of the hybridized state, including an order-of-magnitude enhanced light/matter coupling, avoided-crossing energy shifts, and strain tunability of many-body interactions, are all supported by first-principles calculations. The hybridized excitons reported here may play a critical role in the operation of single quantum emitters based on WSe2. Furthermore, the techniques we developed may be used to fingerprint unidentified excitonic states.
El objetivo fue conocer la estructura, diversidad y los servicios ecosistémicos del arbolado en cuatro parques de la ciudad de Texcoco de Mora, Estado de México. Se realizó un censo y análisis de los árboles existentes en las áreas verdes seleccionadas. Se determinó una población arbórea compuesta por 391 individuos, pertenecientes a 19 familias y 34 especies. Los taxones más comunes fueron Ficus benjamina (23 %), Schinus molle (13.8 %), Hesperocyparis lusitanica (10.2 %) y Ligustrum lucidum (10 %). El índice de Simpson (1-D) presentó un valor de 0.73 y el índice de Shannon-Wiener H’= 3.89, lo que indica una alta diversidad. Las tres especies más abundantes sobrepasan la regla de diversidad 10-20-30 de Santamour. Se estimaron tres servicios ecosistémicos principales a través del software i-Tree Eco v6: almacén de C, captura de C y producción de O2. El arbolado evaluado almacenó 28.85 Mg C ha-1, capturó 2.56 Mg C año-1 y produjo un total de 6 Mg O2 año-1. Además de lo anterior, se calculó que los árboles removieron un total de 0.06 Mg año-1 de contaminantes y contribuyeron a reducir la escorrentía del agua de lluvia en 107.9 m3 año-1. La información generada es útil para la administración y conservación del recurso arbóreo, así como en la valoración del arbolado de la ciudad de Texcoco.
Carbyne is an infinitely long linear chain of carbon atoms with sp
1 hybridization and the truly one-dimensional allotrope of carbon. While obtaining freestanding carbyne is still an open challenge, the study of confined carbyne, linear chains of carbon encapsulated in carbon nanotubes, provides a pathway to explore carbyne and its remarkable properties in a well-defined environment. In this review, we discuss the basics and recent advances in studying single confined carbyne chains by Raman spectroscopy, which is their primary spectroscopic characterization method. We highlight where single carbyne chain studies are needed to advance our understanding of confined carbyne as a material system and provide an overview of the open questions that need to be addressed and of those aspects currently under debate.
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