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, Katarzyna; Woźniak, Tomasz; Blundo, Elena; Zawadzka, Natalia; Kipczak, Łucja; E Faria Junior, Paulo; Szpakowski, Jan; Krasucki, Grzegorz; Cianci, Salvatore; Vaclavkova, Diana; Jana, Dipankar; Kapuściński, Piotr; Pawbake, Amit; Badola, Shalini; Grzeszczyk, Magdalena; Cecchetti, Daniele; Pettinari, Giorgio; Antoniazzi, Igor; Sofer, Zdeněk; Plutnarová, Iva; Watanabe, Kenji; Taniguchi, Takashi; Faugeras, Clement; Potemski, Marek; Babiński, Adam; Polimeni, Antonio; R Molas, Maciej. - 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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