Monolayers (MLs) of semiconducting transition metal dichalcogenides emit light very efficiently and display rich spin-valley physics, with gyromagnetic (g) factors of about -4. Here, we investigate how these properties can be tailored by alloying. Magneto-optical spectroscopy is used to reveal the peculiar properties of excitonic complexes in MoxW1-xSe2 MLs with different metal concentrations. We show that the alloys feature extremely high g factors for neutral excitons, that change gradually with the composition up to reaching values of the order of -10 for x≈0.2. First-principles calculations quantitatively identify the alloy-induced mixing between different conduction band valleys as the underlying mechanism originating the anomalous composition dependence of the neutral exciton g factor. The theoretical framework also suggests a high strain sensitivity of the alloys, making them promising candidates for tailor-made optoelectronic devices.
Extremely high excitonic g factors in 2D crystals by alloy-induced admixing of band states / Olkowska-Pucko, K., Woźniak, T., Blundo, E., Zawadzka, N., Kipczak, Ł., E Faria Junior, P., Szpakowski, J., Krasucki, G., Cianci, S., Vaclavkova, D., Jana, D., Kapuściński, P., Pawbake, A., Badola, S., Grzeszczyk, M., Cecchetti, D., Pettinari, G., Antoniazzi, I., Sofer, Z., Plutnarová, I., et al.. - In: PHYSICAL REVIEW LETTERS. - ISSN 1079-7114. - 136:7(2026), pp. 1-9. [10.1103/lx4n-7bb7]
Extremely high excitonic g factors in 2D crystals by alloy-induced admixing of band states
Elena Blundo
;Salvatore Cianci;Giorgio Pettinari;Antonio Polimeni;
2026
Abstract
Monolayers (MLs) of semiconducting transition metal dichalcogenides emit light very efficiently and display rich spin-valley physics, with gyromagnetic (g) factors of about -4. Here, we investigate how these properties can be tailored by alloying. Magneto-optical spectroscopy is used to reveal the peculiar properties of excitonic complexes in MoxW1-xSe2 MLs with different metal concentrations. We show that the alloys feature extremely high g factors for neutral excitons, that change gradually with the composition up to reaching values of the order of -10 for x≈0.2. First-principles calculations quantitatively identify the alloy-induced mixing between different conduction band valleys as the underlying mechanism originating the anomalous composition dependence of the neutral exciton g factor. The theoretical framework also suggests a high strain sensitivity of the alloys, making them promising candidates for tailor-made optoelectronic devices.| File | Dimensione | Formato | |
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