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Main Authors: Mohapatra, Subhadra, Palato, Samuel, Olsen, Nicholas, Stähler, Julia, Gierster, Lukas
Format: Preprint
Published: 2026
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Online Access:https://arxiv.org/abs/2601.17167
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author Mohapatra, Subhadra
Palato, Samuel
Olsen, Nicholas
Stähler, Julia
Gierster, Lukas
author_facet Mohapatra, Subhadra
Palato, Samuel
Olsen, Nicholas
Stähler, Julia
Gierster, Lukas
contents There are conflicting predictions and reports on the character of the exciton Mott transition (EMT) in monolayer transition metal dichalcogenides. It could be either a discontinuous or a continuous transition from the excitonic to the plasma phase, with important implications for devices such as photoswitches. To resolve the nature of the transition in monolayer WS$_2$, we study its ultrafast optical response upon resonant photoexcitation of the A exciton across a broad range of photoexcitation densities. In agreement with previously reported measurements we observe that the A exciton quenches gradually with increasing excitation density. However, a detailed lineshape analysis unveils an abrupt red shift in the transient peak positions of the A and B exciton resonances above an excitation density threshold. This is attributed to band gap renormalization arising from the formation of free charge carrier plasma, i.e., the EMT. The plasma phase decays with a time constant of 0.65 ps back into the excitonic state. The abrupt appearance of the plasma phase at the threshold density suggests that the EMT is a discontinuous and not a continuous transition. This work demonstrates how transient optical spectroscopy combined with lineshape analysis of two excitonic resonances simultaneously can be used to investigate the EMT in 2D materials.
format Preprint
id arxiv_https___arxiv_org_abs_2601_17167
institution arXiv
publishDate 2026
record_format arxiv
spellingShingle Discontinuous character of the ultrafast exciton Mott transition in monolayer WS$_2$
Mohapatra, Subhadra
Palato, Samuel
Olsen, Nicholas
Stähler, Julia
Gierster, Lukas
Materials Science
There are conflicting predictions and reports on the character of the exciton Mott transition (EMT) in monolayer transition metal dichalcogenides. It could be either a discontinuous or a continuous transition from the excitonic to the plasma phase, with important implications for devices such as photoswitches. To resolve the nature of the transition in monolayer WS$_2$, we study its ultrafast optical response upon resonant photoexcitation of the A exciton across a broad range of photoexcitation densities. In agreement with previously reported measurements we observe that the A exciton quenches gradually with increasing excitation density. However, a detailed lineshape analysis unveils an abrupt red shift in the transient peak positions of the A and B exciton resonances above an excitation density threshold. This is attributed to band gap renormalization arising from the formation of free charge carrier plasma, i.e., the EMT. The plasma phase decays with a time constant of 0.65 ps back into the excitonic state. The abrupt appearance of the plasma phase at the threshold density suggests that the EMT is a discontinuous and not a continuous transition. This work demonstrates how transient optical spectroscopy combined with lineshape analysis of two excitonic resonances simultaneously can be used to investigate the EMT in 2D materials.
title Discontinuous character of the ultrafast exciton Mott transition in monolayer WS$_2$
topic Materials Science
url https://arxiv.org/abs/2601.17167