Pascal conductance series in ballistic one-dimensional LaAlO
            <sub>3</sub>
            /SrTiO
            <sub>3</sub>
            channels

Briggeman, Megan; Tomczyk, Michelle; Tian, Bin; Lee, Hyungwoo; Lee, Jungwoo; He, Yuchi; Tylan‐Tyler, Anthony; Huang, Mengchen; Eom, Chang‐Beom; Pekker, David; Mong, Roger S. K.; Irvin, Patrick; Levy, Jeremy

doi:10.1126/science.aat6467

Cited by 54 publications

(54 citation statements)

References 50 publications

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“…It is worth pointing out that the expressions we have found for the Luttinger parameters [see Eq. (18)], and their dependence on the interaction matrix elements are correct only for weak coupling, i.e., when the typical bandwidth of the two modes W is sufficiently larger than the size of the elements comprising the interaction matrix U. Furthermore, our RG arguments regarding the relevance of the multi-particle backscattering term were also perturbative.…”

Section: Strong Coupling -The 1-2-trion Phasementioning

confidence: 98%

“…[22], the relevance of the λ perturbation, and hence the formation of the φ g gap and fractional plateau, hinge on very strong repulsive interactions between the 1D electrons. However, there is strong evidence for attractive interactions in the electron waveguide devices patterned on the LaAlO 3 /SrTiO 3 interface [17,18]. The key to understanding this apparent discrepancy may lie in another intriguing observation, namely that fractional conductance features were altogether absent from such straight non-modulated waveguides [17].…”

Section: Spatially Modulated Interactionsmentioning

confidence: 99%

“…Recent advances in atomic force microscopy (AFM) and electron lithography have enabled confinement of these surface electrons to quasi-1D waveguides [16]. Electric conductance experiments in these heterostructures have revealed ballistic transport, and apparent strong attractive interactions between the charge carriers which lead to formation of composite few-electron particles [17,18].…”

Section: Introductionmentioning

confidence: 99%

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Modulation induced transport signatures in correlated electron waveguides

Shavit

Oreg

2020

SciPost Phys.

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Recent transport experiments in spatially modulated quasi-1D structures created on top of LaAlO_33/SrTiO_33 interfaces have revealed some interesting features, including phenomena conspicuously absent without the modulation. In this work, we focus on two of these remarkable features and provide theoretical analysis allowing their interpretation. The first one is the appearance of two-terminal conductance plateaus at rational fractions of e^2/he2/h. We explain how this phenomenon, previously believed to be possible only in systems with strong repulsive interactions, can be stabilized in a system with attraction in the presence of the modulation. Using our theoretical framework we find the plateau amplitude and shape, and characterize the correlated phase which develops in the system due to the partial gap, namely a Luttinger liquid of electronic trions. The second observation is a sharp conductance dip below a conductance of 1\times e^2/h1×e2/h, which changes its value over a wide range when tuning the system. We theorize that it is due to resonant backscattering caused by a periodic spin-orbit field. The behavior of this dip can be reliably accounted for by considering the finite length of the electronic waveguides, as well as the interactions therein. The phenomena discussed in this work exemplify the intricate interplay of strong interactions and spatial modulations, and reveal the potential for novel strongly correlated phases of matter in systems which prominently feature both.

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Section: Strong Coupling -The 1-2-trion Phasementioning

confidence: 98%

Section: Spatially Modulated Interactionsmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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Modulation induced transport signatures in correlated electron waveguides

Shavit

Oreg

2020

SciPost Phys.

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“…This quantum spin liquid is valuable and practical reincarnated electronic matter at quantum scale due to superior electronic applications and quantum mechanical impacts. Modern S&T have reconfigured many 1/2/3D materials like ballistic LaAlO 3 /SrTiO 3 conductors, quantum hall phased graphene-SrTiO 3 matrix and magnon stretch graphene being gifted with unique features like planned quantum state, regimented magnetic stimulations and unique electrical conductance [17]. Advanced nanotechnology generates magnon spread viable for quantum Hall effect or ferromagnetism across the bulk path all over graphene reinforced magnetic phases due to survival of 2D excited electron waves at low temperature.…”

Section: Reincarnated Quantum States In 3d Materialsmentioning

confidence: 99%

“…In twenty-first century, many properties of quantum nature of matter were either ignored or unknown earlier are ever explored due to endowed applications in many quantum fields including computing, sensing, teleportation, and communication [1,[13][14][15][16][17]. Reincarnated quantum states offer electric potential with finetuned state marking transition to topological order along with paternal quantum entanglement as viable for quantum Hall effect through such reconfigured 2D/3D matrixes.…”

Section: Reincarnated Quantum States In 3d Materialsmentioning

confidence: 99%

Introductory Chapter: Assorted Dimensional Reconfigurable Materials

Dongre¹,

Peshwe²

2020

Assorted Dimensional Reconfigurable Materials

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Polar Perturbations in Functional Oxide Heterostructures

Wang

Lee

et al. 2023

Adv Funct Materials

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Growth and characterization of metal‐oxide thin films foster successful development of oxide‐material‐integrated thin‐film devices represented by metal‐oxide‐semiconductor field‐effect transistors (MOSFET), drawing enormous technological and scientific interest for several decades. In recent years, functional oxide heterostructures have demonstrated remarkable achievements in modern technologies and provided deeper insights into condensed‐matter physics and materials science owing to their versatile tunability and selective amplification of the functionalities. One of the most critical aspects of their physical properties is the polar perturbation stemming from the ionic framework of an oxide. By engineering and exploiting the structural, electrical, magnetic, and optical characteristics through various routes, numerous perceptive studies have clearly shown how polar perturbations advance functionalities or drive exotic physical phenomena in complex oxide heterostructures. In this review, both intrinsic (engraved by thin‐film heteroepitaxy) and extrinsic (reversibly controllable defect‐mediated disorder and polar adsorbates) elements of polar perturbations, highlighting their abilities for the development of highly tunable functional properties are summarized. Scientifically, the recent approaches of polar perturbations render one to consolidate a prospect of atomic‐level manipulation of polar order in epitaxial oxide thin films. Technologically, this review also offers useful guidelines for rational design to heterogeneously integrated oxide‐based multi‐functional devices with high performances.

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Pascal conductance series in ballistic one-dimensional LaAlO ₃ /SrTiO ₃ channels

Cited by 54 publications

References 50 publications

Modulation induced transport signatures in correlated electron waveguides

Modulation induced transport signatures in correlated electron waveguides

Introductory Chapter: Assorted Dimensional Reconfigurable Materials

Polar Perturbations in Functional Oxide Heterostructures

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Pascal conductance series in ballistic one-dimensional LaAlO 3 /SrTiO 3 channels

Cited by 54 publications

References 50 publications

Modulation induced transport signatures in correlated electron waveguides

Modulation induced transport signatures in correlated electron waveguides

Introductory Chapter: Assorted Dimensional Reconfigurable Materials

Polar Perturbations in Functional Oxide Heterostructures

Contact Info

Product

Resources

About

Pascal conductance series in ballistic one-dimensional LaAlO ₃ /SrTiO ₃ channels