Dong Zhou
Cornell University
43 Papers
262 Citations
Dong Zhou is an academic researcher from Cornell University. The author has contributed to research in topics: Qubit & Quantitative susceptibility mapping. The author has an hindex of 22, co-authored 42 publications. Previous affiliations of Dong Zhou include Nanjing University & University of Wisconsin-Madison.
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Papers
Cavity-assisted quantum bath engineering.
TL;DR: By tailoring the spectrum of microwave photon shot noise in the cavity, this work creates a dissipative environment that autonomously relaxes the atom to an arbitrarily specified coherent superposition of the ground and excited states in the presence of background thermal excitations.
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Background field removal by solving the Laplacian boundary value problem
TL;DR: The proposed Laplacian boundary value (LBV) method for background field removal retains data near the boundary and is computationally efficient and more accurate than two existing methods.
243
A high-resolution chemical and structural study of framboidal pyrite formed within a low-temperature bacterial biofilm
Lachlan C. W. MacLean,Tolek Tyliszczak,Pupa U. P. A. Gilbert,Dong Zhou,T. J. Pray,Tullis C. Onstott,Gordon Southam +6 more
TL;DR: Examination of the biofilm scraped from the inner surface of a borehole demonstrated that the framboids formed within a matrix of bacteria and biopolymers, confirming the association between framboidal pyrite and organic materials in low-temperature diagenetic environments and the important role of microenvironments in biofilms in regulating geochemical cycles.
176
Gradual ordering in red abalone nacre.
Pupa U. P. A. Gilbert,Rebecca A. Metzler,Dong Zhou,Andreas Scholl,Andrew Doran,Anthony Young,Martin Kunz,Nobumichi Tamura,Susan Coppersmith +8 more
TL;DR: In this article, the authors present synchrotron spectromicroscopy experiments revealing that stacks of aragonite tablet crystals in nacre are misoriented with respect to each other.
Nacre Protein Fragment Templates Lamellar Aragonite Growth
Rebecca A. Metzler,John Spencer Evans,Christopher E. Killian,Dong Zhou,Tyler H. Churchill,Narayana Appathurai,Susan Coppersmith,Pupa U. P. A. Gilbert +7 more
TL;DR: This work uses N16N, a single 30 amino acid-protein fragment originally inspired by the mineral binding site of N16, a protein in the nacre layer of the Japanese pearl oysters, to suggest a hypothetical scenario in which in vivo three proteins work in concert to form lamellar nacre.
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