Jak Chakhalian
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Explore the profile of Jak Chakhalian including associated specialties, affiliations and a list of published articles.
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13
Citations
47
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Recent Articles
1.
Kareev M, Liu X, Terilli M, Wen F, Wu T, Doughty D, et al.
Nano Lett
. 2025 Jan;
25(3):966-972.
PMID: 39745142
Pyrochlore materials are known for their exotic magnetic and topological phases arising from complex interactions among electron correlations, band topology, and geometric frustration. Interfaces between different pyrochlore crystals characterized by...
2.
Liu X, Kim J, Wang Y, Terilli M, Jia X, Kareev M, et al.
Nat Commun
. 2024 Nov;
15(1):10348.
PMID: 39609439
The pyrochlore iridates have become ideal platforms to unravel fascinating correlated and topological phenomena that stem from the intricate interplay among strong spin-orbit coupling, electronic correlations, lattice with geometric frustration,...
3.
Paudel J, Tehrani A, Terilli M, Kareev M, Grassi J, Sah R, et al.
Nano Lett
. 2024 Nov;
24(48):15195-15201.
PMID: 39566903
Emergent magnetic phenomena at interfaces represent a frontier in materials science, pivotal for advancing technologies in spintronics and magnetic storage. In this Letter, we utilize a suite of advanced X-ray...
4.
Liu X, Fang S, Fu Y, Ge W, Kareev M, Kim J, et al.
Phys Rev Lett
. 2022 Jan;
127(27):277204.
PMID: 35061435
The interplay between electronic interactions and strong spin-orbit coupling is expected to create a plethora of fascinating correlated topological states of quantum matter. Of particular interest are magnetic Weyl semimetals...
5.
Liu X, Singh S, Drouin-Touchette V, Asaba T, Brewer J, Zhang Q, et al.
Nano Lett
. 2021 Feb;
21(5):2010-2017.
PMID: 33617255
Complementary to bulk synthesis, here we propose a designer lattice with extremely high magnetic frustration and demonstrate the possible realization of a quantum spin liquid state from both experiments and...
6.
Liu X, Singh S, Kirby B, Zhong Z, Cao Y, Pal B, et al.
Nano Lett
. 2019 Nov;
19(12):8381-8387.
PMID: 31665887
We report on the emergent magnetic state of (111)-oriented CoCrO ultrathin films sandwiched between AlO spacer layers in a quantum confined geometry. At the two-dimensional crossover, polarized neutron reflectometry reveals...
7.
Arab A, Liu X, Koksal O, Yang W, Chandrasena R, Middey S, et al.
Nano Lett
. 2019 Oct;
19(11):8311-8317.
PMID: 31644875
Artificial complex-oxide heterostructures containing ultrathin buried layers grown along the pseudocubic [111] direction have been predicted to host a plethora of exotic quantum states arising from the graphene-like lattice geometry...
8.
Liu X, Kotiuga M, Kim H, NDiaye A, Choi Y, Zhang Q, et al.
Proc Natl Acad Sci U S A
. 2019 Sep;
116(40):19863-19868.
PMID: 31527227
We investigate [Formula: see text]/[Formula: see text] superlattices in which we observe a full electron transfer at the interface from Ir to Ni, triggering a massive structural and electronic reconstruction....
9.
Liu S, Zhang C, Zhu M, He Q, Chakhalian J, Liu X, et al.
J Phys Condens Matter
. 2017 Jul;
29(40):405401.
PMID: 28741594
We report on the fabrication of epitaxial LaYAlO ultrathin films on (001) LaAlO substrates. Structural characterizations by scanning transmission electron microscopy and x-ray diffraction confirm the high quality of the...
10.
Vardi N, Anouchi E, Yamin T, Middey S, Kareev M, Chakhalian J, et al.
Adv Mater
. 2017 Mar;
29(21).
PMID: 28332323
Transition metal oxides are complex electronic systems that exhibit a multitude of collective phenomena. Two archetypal examples are VO and NdNiO , which undergo a metal-insulator phase transition (MIT), the...