Mr. Jaydeep Joshi Profile

Jaydeep Joshi

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Proceedings Article | 21 September 2017 Presentation

Patrick Vora, Ryan Beams, Sean Oliver, Jaydeep Joshi, Sergiy Krylyuk, Irina Kalish, Alina Bruma, Iris Stone, Arunima Singh, Francesca Tavazza, Stephan Stranick, Albert Davydov

Proceedings Volume 10349, 1034906 (2017) https://doi.org/10.1117/12.2275340

KEYWORDS: Raman spectroscopy, Phonons, Transition metals, Optical properties, Crystallography, Metalloids, Crystals, Semiconductors, Molybdenum, Metals

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The structural polymorphism intrinsic to select transition metal dichalcogenides provides exciting opportunities for engineering novel devices. Of special interest are memory technologies that rely upon controlled changes in crystal phase, collectively known as phase change memories (PCMs). MoTe$_2$ is ideal for PCMs as the ground state energy difference between the hexagonal (2H, semiconducting) and monoclinic (1T’, metallic) phases is minimal. This energy difference can be made arbitrarily small by substituting W for Mo on the metal sublattice, thus improving PCM performance. Therefore, understanding the properties of Mo$_{1-x}$W$_x$Te$_2$ alloys across the entire compositional range is vital for the technological application of these versatile materials. We combine Raman spectroscopy with aberration-corrected scanning transmission electron microscopy and x-ray diffraction to explore the MoTe$_2$-WTe$_2$ alloy system. The results of these studies enable the construction of the complete alloy phase diagram, while polarization-resolved Raman measurements provide phonon mode and symmetry assignments for all compositions. Temperature-dependent Raman measurements indicate a transition from 1T’-MoTe$_2$ to a distorted orthorhombic phase (T$_d$) below 250 K and facilitate identification of the anharmonic contributions to the optical phonon modes in bulk MoTe$_2$ and Mo$_{1-x}W$_x$Te$_2$ alloys. We also identify a Raman-forbidden MoTe$_2$ mode that is activated by compositional disorder and find that the main WTe$_2$ Raman peak is asymmetric for x<1. This asymmetry is well-fit by the phonon confinement model and allows the determination of the phonon correlation length. Our work is foundational for future studies of Mo$_x$W${1-x}$Te$_2$ alloys and provides new insights into the impact of disorder in transition metal dichalcogenides.

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