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1. Effects of multi-dimensionality and energy exchange on electrostatic current-driven plasma instabilities and turbulence

Author

Chan, Wai Hong Ronald, Hara, Kentaro, and Boyd, Iain D.

Subjects
Physics - Plasma Physics, Physics - Computational Physics, Statistics - Applications
Abstract

Large-amplitude current-driven plasma instabilities, which can transition to the Buneman instability, were observed in one-dimensional (1D) simulations to generate high-energy backstreaming ions. We investigate the saturation of multi-dimensional plasma instabilities and its effects on energetic ion formation. Such ions directly impact spacecraft thruster lifetimes and are associated with magnetic reconnection and cosmic ray inception. An Eulerian Vlasov--Poisson solver employing the grid-based direct kinetic method is used to study the growth and saturation of 2D2V collisionless, electrostatic current-driven instabilities spanning two dimensions each in the configuration (D) and velocity (V) spaces supporting ion and electron phase-space transport. Four stages characterise the electric potential evolution in such instabilities: linear modal growth, harmonic growth, accelerated growth via quasi-linear mechanisms alongside non-linear fill-in, and saturated turbulence. Its transition and isotropisation process bears considerable similarities to the development of hydrodynamic turbulence. While a tendency to isotropy is observed in the plasma waves, followed by electron and then ion phase space after several ion-acoustic periods, the formation of energetic backstreaming ions is more limited in the 2D2V than in the 1D1V simulations. Plasma waves formed by two-dimensional electrostatic kinetic instabilities can propagate in the direction perpendicular to the net electron drift. Thus, large-amplitude multi-dimensional waves generate high-energy transverse-streaming ions and eventually limit energetic backward-streaming ions along the longitudinal direction. The multi-dimensional study sheds light on interactions between longitudinal and transverse electrostatic plasma instabilities, as well as fundamental characteristics of the inception and sustenance of unmagnetised plasma turbulence.

Published
2024

2. Spectral analysis of multidimensional current-driven plasma instabilities and turbulence in hollow cathode plumes

Author

Chan, Wai Hong Ronald, Hara, Ken, Wang, Jonathan M., Jain, Suhas S., Mirjalili, Shahab, and Boyd, Iain D.

Subjects
Physics - Plasma Physics, Physics - Computational Physics, Statistics - Applications
Abstract

Large-amplitude current-driven instabilities in hollow cathode plumes can generate energetic ions responsible for cathode sputtering and spacecraft degradation. A 2D2V (two dimensions each in configuration [D] and velocity [V] spaces) grid-based Vlasov--Poisson (direct kinetic) solver is used to study their growth and saturation, which comprises four stages: linear growth, quasilinear resonance, nonlinear fill-in, and saturated turbulence. The linear modal growth rate, nonlinear saturation process, and ion velocity and energy distribution features in the turbulent regime are analyzed. Backstreaming ions are generated for large electron drifts, several ion acoustic periods after the potential field becomes turbulent. Interscale phase-space transfer and locality are analyzed for the Vlasov equation. The multidimensional study sheds light on the interactions between longitudinal and transverse plasma instabilities, as well as the inception of plasma turbulence., Comment: Center for Turbulence Research Proceedings of the Summer Program 2022

Published
2022

3. The Dynamics of Drop Breakup in Breaking Waves

Author

Chan, Wai Hong Ronald

Subjects
Physics - Fluid Dynamics, Physics - Atmospheric and Oceanic Physics, Physics - Computational Physics, Statistics - Applications
Abstract

Breaking surface waves generate drops of a broad range of sizes that have a significant influence on regional and global climates, as well as the identification of ship movements. Characterizing these phenomena requires a fundamental understanding of the underlying mechanisms behind drop production. The interscale nature of these mechanisms also influences the development of models that enable cost-effective computation of large-scale waves. Interscale locality implies the universality of small scales and the suitability of generic subgrid-scale (SGS) models, while interscale nonlocality points to the potential dependence of the small scales on larger-scale geometry configurations and the corresponding need for tailored SGS models instead. A recently developed analysis toolkit combining theoretical population balance models, multiphase numerical simulations, and structure-tracking algorithms is used to probe the nature of drop production and its corresponding interscale mass-transfer characteristics above the surface of breaking waves. The results from the application of this toolkit suggest that while drop breakup is a somewhat scale-nonlocal process, its interscale transfer signature suggests that it is likely capillary-dominated and thus sensitive not to the specific nature of large-scale wave breaking, but rather to the specific geometry of the parent drops.

Published
2022

4. Enabling direct kinetic simulation of dense plasma plume expansion for laser ablation plasma thrusters

Author

Chan, Wai Hong Ronald and Boyd, Iain D.

Subjects
Physics - Plasma Physics, Physics - Computational Physics, Physics - Space Physics
Abstract

Laser ablation plasma thrusters are an emerging space propulsion concept that provides promise for lightweight payload delivery. Predicting the lifetime and performance of these thrusters hinges on a comprehensive characterization of the expansion dynamics of the ablated plasma plume. While state-of-the-art techniques for simulating plasmas are often particle-based, a grid-based direct kinetic solver confers advantages in such a transient and inhomogeneous problem by eliminating statistical noise. A direct kinetic solver including interparticle collisions is employed on a plume expansion model problem spanning one dimension each in configuration and velocity space. The high degree of thermodynamic nonequilibrium inherent in plume expansion is characterized, justifying the need for a kinetic rather than a hybrid or fluid solver. Thruster-relevant metrics such as the momentum flux are also computed. The plume dynamics are observed to be highly inhomogeneous in space with insufficient time for thermalization in the region preceding the expansion front, and the theoretical possibility of reducing the local grid resolution by up to two orders of magnitude at the far end of the domain is established. These grid-point requirements are verified via the employment of nonuniform grids of various expansion ratios, several of which also employ coarsening in velocity space. Longer domain lengths are explored to characterize thruster-scale phenomena and larger ambient pressures are simulated as a testbed to probe facility effects due to collisions with background particles., Comment: Please see also IEPC Article Repository at https://www.electricrocket.org/index.php?page=iepc-article-repository

Published
2022

5. Identifying and tracking bubbles and drops in simulations: a toolbox for obtaining sizes, lineages, and breakup and coalescence statistics

Author

Chan, Wai Hong Ronald, Dodd, Michael S., Johnson, Perry L., and Moin, Parviz

Subjects
Physics - Fluid Dynamics, Computer Science - Computational Engineering, Finance, and Science, Physics - Atmospheric and Oceanic Physics, Physics - Computational Physics
Abstract

Knowledge of bubble and drop size distributions in two-phase flows is important for characterizing a wide range of phenomena, including combustor ignition, sonar communication, and cloud formation. The physical mechanisms driving the background flow also drive the time evolution of these distributions. Accurate and robust identification and tracking algorithms for the dispersed phase are necessary to reliably measure this evolution and thereby quantify the underlying mechanisms in interface-resolving flow simulations. The identification of individual bubbles and drops traditionally relies on an algorithm used to identify connected regions. This traditional algorithm can be sensitive to the presence of spurious structures. A cost-effective refinement is proposed to maximize volume accuracy while minimizing the identification of spurious bubbles and drops. An accurate identification scheme is crucial for distinguishing bubble and drop pairs with large size ratios. The identified bubbles and drops need to be tracked in time to obtain breakup and coalescence statistics that characterize the evolution of the size distribution, including breakup and coalescence frequencies, and the probability distributions of parent and child bubble and drop sizes. An algorithm based on mass conservation is proposed to construct bubble and drop lineages using simulation snapshots that are not necessarily from consecutive time-steps. These lineages are then used to detect breakup and coalescence events, and obtain the desired statistics. Accurate identification of large-size-ratio bubble and drop pairs enables accurate detection of breakup and coalescence events over a large size range. Together, these algorithms enable insights into the mechanisms behind bubble and drop formation and evolution in flows of practical importance., Comment: Under review for the Journal of Computational Physics

Published
2020
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6. The turbulent bubble break-up cascade. Part 2. Numerical simulations of breaking waves

Author

Chan, Wai Hong Ronald, Johnson, Perry L., Moin, Parviz, and Urzay, Javier

Subjects
Physics - Fluid Dynamics, Physics - Atmospheric and Oceanic Physics
Abstract

Breaking waves generate a distribution of bubble sizes that evolves over time. Knowledge of how this distribution evolves is of practical importance for maritime and climate studies. The analytical framework developed in Part 1 examined how this evolution is governed by the bubble-mass flux from large to small bubble sizes, which depends on the rate of break-up events and the distribution of child bubble sizes. These statistics are measured in Part 2 as ensemble-averaged functions of time by simulating ensembles of breaking waves, and identifying and tracking individual bubbles and their break-up events. The break-up dynamics are seen to be statistically unsteady, and two intervals with distinct characteristics were identified. In the first interval, the dissipation rate and bubble-mass flux are quasi-steady, and the theoretical analysis of Part 1 is supported by all observed statistics, including the expected -10/3 power-law exponent for the super-Hinze-scale size distribution. Strong locality is observed in the corresponding bubble-mass flux, supporting the presence of a super-Hinze-scale break-up cascade. In the second interval, the dissipation rate decays, and the bubble-mass flux increases as small- and intermediate-sized bubbles become more populous. This flux remains strongly local with cascade-like behaviour, but the dominant power-law exponent for the size distribution increases to -8/3 as small bubbles are also depleted more quickly. This suggests the emergence of different physical mechanisms during different phases of the breaking-wave evolution, although size-local break-up remains a dominant theme. Parts 1 and 2 present an analytical toolkit for population balance analysis in two-phase flows., Comment: Under review for the Journal of Fluid Mechanics. Several figure placements were affected by arXiv's processing; contact authors for the original submitted manuscript

Published
2020
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7. The turbulent bubble break-up cascade. Part 1. Theoretical developments

Author

Chan, Wai Hong Ronald, Johnson, Perry, and Moin, Parviz

Subjects
Physics - Fluid Dynamics, Physics - Atmospheric and Oceanic Physics
Abstract

Breaking waves entrain gas beneath the surface. The wave-breaking process energizes turbulent fluctuations that break bubbles in quick succession to generate a wide range of bubble sizes. Understanding this generation mechanism paves the way towards the development of predictive models for large-scale maritime and climate simulations. Garrett et al. (2000) suggested that super-Hinze-scale turbulent breakup transfers entrained gas from large to small bubble sizes in the manner of a cascade. We provide a theoretical basis for this bubble-mass cascade by appealing to how energy is transferred from large to small scales in the energy cascade central to single-phase turbulence theories. A bubble break-up cascade requires that break-up events predominantly transfer bubble mass from a certain bubble size to a slightly smaller size on average. This property is called locality. In this paper, we analytically quantify locality by extending the population balance equation in conservative form to derive the bubble-mass transfer rate from large to small sizes. Using our proposed measures of locality, we show that scalings relevant to turbulent bubbly flows, including those postulated by Garrett et al. (2000) and observed in breaking-wave experiments and simulations, are consistent with a strongly local transfer rate, where the influence of non-local contributions decays in a power-law fashion. These theoretical predictions are confirmed using numerical simulations in Part 2, revealing key physical aspects of the bubble break-up cascade phenomenology. Locality supports the universality of turbulent small-bubble break-up, which simplifies the development of subgrid-scale models to predict oceanic small-bubble statistics of practical importance., Comment: Under review for the Journal of Fluid Mechanics

Published
2020
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8. The game chromatic index of trees of maximum degree 4 with at most three degree-four vertices in a row

Author

Fong, Wai Lam and Chan, Wai Hong

Subjects
Mathematics - Combinatorics, 05C15, 05C57, 05C05
Abstract

Fong et al. (The game chromatic index of some trees with maximum degree four and adjacent degree-four vertices, J. Comb Optim 36 (2018) 1-12) proved that the game chromatic index of any tree $T$ of maximum degree 4 whose degree-four vertices induce a forest of paths of length $l$ less than 2 is at most 5. In this paper, we show that the bound 5 is also valid for $l\leq 2$. This partially solves the problem of characterization of the trees whose game chromatic index exceeds the maximum degree by at most 1, which was proposed by Cai and Zhu (Game chromatic index of $k$-degenerate graphs, J. Graph Theory 36 (2001) 144-155)., Comment: 36 pages, 72 figures

Published
2019

9. High Fidelity Simulations of Micro-Bubble Shedding from Retracting Thin Gas Films in the Context of Liquid-Liquid Impact

Author

Mirjalili, Shahab, Chan, Wai Hong Ronald, and Mani, Ali

Subjects
Physics - Fluid Dynamics
Abstract

Micro-bubbles are of significant interest due to the long-living signature they leave behind naval ships. In order to numerically model and predict these bubbles in naval applications, subgrid-scale models are required because of the extreme separation of length- and time-scales between the macroscopic geometries and the physical processes leading to the formation of these bubbles. Yet, there is much that is unknown about the mechanism behind the entrainment of such bubbles. Furthermore, quantitative information regarding their size distribution and dependence on flow parameters is very limited. Impact events are hypothesized to be the main contributor to the generation of micro-bubbles. This is due to a phenomenon known as Mesler entrainment, which has been observed in the context of the drop-pool impact problem. Namely, when a water droplet with diameter of $\mathcal{O}(1mm)$ impacts a deep water pool with an impact velocity of $\mathcal{O}(1m/s)$, hundreds of air micro-bubbles are entrained into the pool. These bubbles have been found to be remnants of a very thin air film entrapped between the two liquid bodies. These films have extremely high aspect ratios and after being punctured, shed micro-bubbles while retracting on time scales much shorter than the outer flow time scales. This separation of time-scales, along with a lacking of studies on retracting thin gas films has motivated us to study this fundamental problem with numerical simulations in two and three dimensions. Using a diffuse interface method, we perform two-phase simulations of retracting thin gas films in initially static liquid backgrounds to gain understanding regarding this problem and gather statistics that can be potentially used in a subgrid-scale model to predict micro-bubble shedding from a thin gas film. Coupling a model like this to a model that predicts the thin film characteristics ..., Comment: Proceedings of 32nd Symposium on Naval Hydrodynamics, Hamburg, Germany, 5-10 Aug. 2018

Published
2018

10. Subgrid-scale modeling for microbubble generation amid colliding water surfaces

Author

Chan, Wai Hong Ronald, Urzay, Javier, and Moin, Parviz

Subjects
Physics - Fluid Dynamics, Physics - Atmospheric and Oceanic Physics, Physics - Computational Physics
Abstract

The generation of microbubbles upon the collision and interaction of liquid bodies in a gaseous environment is a ubiquitous process in two-phase flows, including large-scale phenomena like ship wakes, breaking waves and rain showers. These collision and interaction events involve the relative approach of pairs of liquid-gas interfaces. As these interfaces approach, the smallest length scales of the system are dynamically reduced. This evolving disparity in length scales is numerically challenging to resolve without the employment of subgrid-scale (SGS) impact and breakup models. In this study, a physics-based impact and breakup model for the generation of these microbubbles is developed and implemented. The objectives of this study are to develop a computational algorithm that identifies interface collision events that contribute to the formation of microbubbles, to formulate a physics-based breakup model that predicts the distribution of microbubble sizes using the characteristics of the originating gas film, and to integrate these modules into a two-phase flow solver that accurately captures the effects of bubbles of all sizes. In these proceedings, an SGS model suitable for the aforementioned problems is proposed, and the steps involved in implementing the proposed SGS model in a macroscale flow solver are outlined. Two aspects of the development of this SGS model are then discussed in detail. First, the formulation and implementation of the first step of the SGS model, the collision detection algorithm, is detailed. Second, preliminary findings of a numerical investigation intended to shed light on breakup processes in turbulent two-phase flows are presented., Comment: This is a low-resolution version submitted to meet the arXiv requirements. For a high-resolution version, please contact the authors directly

Published
2018

11. Blowup of Regular Solutions for the Relativistic Euler-Poisson Equations

Author

Chan, Wai Hong, Wong, Sen, and Yuen, Manwai

Subjects
Mathematics - Analysis of PDEs, Mathematical Physics, 35B44, 35Q75, 83C10, 35L67, 35B30
Abstract

In this paper, we study the blowup phenomena for the regular solutions of the isentropic relativistic Euler-Poisson equations with a vacuum state in spherical symmetry. Using a general family of testing functions, we obtain new blowup conditions for the relativistic Euler-Poisson equations. We also show that the proposed blowup conditions are valid regardless of the speed requirement, which was one of the key constraints stated in "Y. Geng, Singularity Formation for Relativistic Euler and Euler-Poisson Equations with Repulsive Force, Commun. Pure Appl. Anal., 14 (2015), 549--564."., Comment: 14 Pages; Key Words: Relativistic Euler-Poisson Equations, Integration Method, Blowup, Initial Value Problem, Vacuum, Radial Symmetry

Published
2015
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12. Semiquantum key distribution with secure delegated quantum computation

Author

Li, Qin, Chan, Wai Hong, and Zhang, Shengyu

Subjects
Quantum Physics
Abstract

Semiquantum key distribution allows a quantum party to share a random key with a "classical" party who only can prepare and measure qubits in the computational basis or reorder some qubits when he has access to a quantum channel. In this work, we present a protocol where a secret key can be established between a quantum user and an almost classical user who only needs the quantum ability to access quantum channels, by securely delegating quantum computation to a quantum server. We show the proposed protocol is robust even when the delegated quantum server is a powerful adversary, and is experimentally feasible with current technology. As one party of our protocol is the most quantum-resource efficient, it can be more practical and significantly widen the applicability scope of quantum key distribution., Comment: 7 pages, 2 figures

Published
2015
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13. Characterization and Control of Diffusion Processes in Multi-Agent Networks

Author

Chan, Wai Hong Ronald, Wildemeersch, Matthias, and Quek, Tony Q. S.

Subjects
Computer Science - Social and Information Networks, Computer Science - Systems and Control
Abstract

Diffusion processes are instrumental to describe the movement of a continuous quantity in a generic network of interacting agents. Here, we present a probabilistic framework for diffusion in networks and propose to classify agent interactions according to two protocols where the total network quantity is conserved or variable. For both protocols, our focus is on asymmetric interactions between agents involving directed graphs. Specifically, we define how the dynamics of conservative and non-conservative networks relate to the weighted in-degree Laplacian and the weighted out-degree Laplacian. Our framework allows the addition and subtraction of the considered quantity to and from a set of nodes. This enables the modeling of stubborn agents with time-invariant quantities, and the process of dynamic learning. We highlight several stability and convergence characteristics of our framework, and define the conditions under which asymptotic convergence is guaranteed when the network topology is variable. In addition, we indicate how our framework accommodates external network control and targeted network design. We show how network diffusion can be externally manipulated by applying time-varying input functions at individual nodes. Desirable network structures can also be constructed by adjusting the dominant diffusion modes. To this purpose, we propose a Markov decision process that learns these network adjustments through a reinforcement learning algorithm, suitable for large networks. The presented network control and design schemes enable flow modifications that allow the alteration of the dynamic and stationary behavior of the network in conservative and non-conservative networks.

Published
2015

14. On the existence of quantum signature for quantum messages

Author

Li, Qin, Chan, Wai Hong, Wu, Chunhui, and Wen, Zhonghua

Subjects
Quantum Physics
Abstract

Quantum signature (QS) is used to authenticate the identity of the originator, ensure data integrity and provide non-repudiation service with unconditional security. Depending on whether a trusted third party named arbitrator is involved or not, QS is classified as arbitrated QS and true QS. This paper studies existence problem about the two kinds of QS and contributes to two points: 1) a basic framework is provided to analyze the possibility of arbitrated QS on signing quantum messages; 2) disagreement between the impossibility of true QS and an existing true QS scheme is solved., Comment: 7 pages, no figures

Published
2013
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24. Building and Checking Suffix Array Simultaneously by Induced Sorting Method.

Author

Lao, Bin, Wu, Yi, Nong, Ge, and Chan, Wai Hong

Subjects
SUFFIXES & prefixes (Grammar), RANDOM access memory
Abstract

Many efficient open-source suffix sorters using the induced sorting (IS) method to build the fundamental data structure suffix array (SA) for compressing and indexing data have been proposed. To avoid potential faults caused by possible implementation bugs, checking the output SA from any IS sorter without engineering warranty for correctness is a de-facto process. The existing SA checkers commonly perform checking after an SA is built completely, with significant time and space complexities compared with that of builders. This article proposes an efficient solution for building and checking SA simultaneously by enhancing the original IS method with a checking scheme using hash computations to on-the-fly verify the results produced by the last induction phase of IS method. Given an input of constant alphabet, this checking scheme requires linear time and constant RAM space when running on external memory, and its time and space overheads are negligible compared with that for building SA. In our experiments on real-world data, the proposed methods take advantages over the counterparts of existing SA checkers by running faster with less space. This work can help provide a value-added bonus feature for open-source IS sorters to guarantee the correctness of a built SA, and such a feature should be desirable for applications using these sorters. [ABSTRACT FROM AUTHOR]

Published
2022
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27. Characterization and Control of Conservative and Non-conservative Network Dynamics

Author

Wildemeersch, Matthias, Ronald Chan, Wai Hong, Rovenskaya, Elena, Quek, Tony Q.S., Wildemeersch, Matthias, Ronald Chan, Wai Hong, Rovenskaya, Elena, and Quek, Tony Q.S.

Abstract

Diffusion processes are instrumental to describe the movement of a continuous quantity in a network of interacting agents. Here, we present a framework for diffusion in networks and study in particular two classes of agent interactions depending on whether the total network quantity follows a conservation law. Focusing on probabilistic, asymmetric interactions between agents, we define how the dynamics of conservative and non-conservative networks relate to the weighted in-degree and out-degree Laplacians. For uncontrolled networks, we compare the convergence behavior of both types of networks as a function of the eigenvectors of the weighted graph Laplacians. For networks with exogenous controls, we also analyze convergence and provide a method to measure the difference between conservative and non-conservative network dynamics based on the comparison of their respective reachable sets. The presented network control framework enables the comparative study of the dynamic and asymptotic network behavior for conservative and non-conservative networks.

Published
2018

33. Non-linear electrophoresis of ideally polarizable particles

Author

Cullen R. Buie., Massachusetts Institute of Technology. Department of Mechanical Engineering., Chan, Wai Hong Ronald, Cullen R. Buie., Massachusetts Institute of Technology. Department of Mechanical Engineering., and Chan, Wai Hong Ronald

Abstract

Thesis: S.B., Massachusetts Institute of Technology, Department of Mechanical Engineering, 2014., This electronic version was submitted by the student author. The certified thesis is available in the Institute Archives and Special Collections., Cataloged from student-submitted PDF version of thesis., Includes bibliographical references (pages 219-229)., This thesis investigates the non-linear regime of electrophoresis, in particular the variation of electrophoretic velocity with electric field at high field strengths. Known theoretical approaches to the problem accounting for ion steric effects, dielectric decrement effects and charge-induced thickening are consolidated, further developed and validated using numerical simulations. In doing so, the influences of the relative strengths of surface conductivity and bulk conductivity and of the relative importance of advection to diffusive transport in the electrolyte are both investigated. In addition, further light is shed on the dependence of electrophoretic mobility on the ionic and particle sizes, and on the relevant ionic diffusivities., by Wai Hong Ronald Chan., S.B.

Published
2015

39. Two Efficient Algorithms for Linear Time Suffix Array Construction.

Author

Nong, Ge, Zhang, Sen, and Chan, Wai Hong

Subjects
ALGORITHMS, LINEAR systems, COMPUTATIONAL complexity, SORTING (Electronic computers), LEAST squares, APPROXIMATION theory
Abstract

We present, in this paper, two efficient algorithms for linear time suffix array construction. These two algorithms achieve their linear time complexities, using the techniques of divide-and-conquer, and recursion. What distinguish the proposed algorithms from other linear time suffix array construction algorithms (SACAs) are the variable-length leftmost S-type (LMS) substrings and the fixed-length d-critical substrings sampled for problem reduction, and the simple algorithms for sorting these sampled substrings: the induced sorting algorithm for the variable-length LMS substrings and the radix sorting algorithm for the fixed-length d-critical substrings. The very simple sorting mechanisms render our algorithms an elegant design framework, and, in turn, the surprisingly succinct implementations. The fully functional sample implementations of our proposed algorithms require only around 100 lines of C code for each, which is only 1/10 of the implementation of the KA [CHECK END OF SENTENCE] algorithm and comparable to that of the KS [CHECK END OF SENTENCE] algorithm. The experimental results demonstrate that these two newly proposed algorithms yield the best time and space efficiencies among all the existing linear time SACAs. [ABSTRACT FROM AUTHOR]

Published
2011
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40. Iron- and copper-catalyzed Chemistry of iminoiodanes as novel synthetic strategies for C�??N bond formation

Author

Thi My Uyen. Ton, Chan Wai Hong, Philip, and School of Physical and Mathematical Sciences

Subjects
Chemistry, Science::Chemistry::Organic chemistry [DRNTU], Copper catalyzed, Organic chemistry, Bond formation, Medicinal chemistry
Abstract

The work in this thesis was undertaken in Chemistry and Biological Chemistry, School of Physical and Mathematical Sciences in Nanyang Technological University from January 2009 to May 2012 under the supervision of Asst. Prof. Philip Wai Hong Chan. The work of this thesis has been directed toward the development of new iron and copper-catalyzed chemistry of nitrogen atom transfer reactions from iminoioddanes to C=C and C−H bonds as efficient synthetic strategies to C−N bond formation. This thesis is divided into three parts: Part I consists of Chapter I, which gives an introduction to iron and copper catalysis and its application to aziridination and amination of C=C and C−H bonds with hypervalent iodine(III) reagents. Part II is aimed at exploring novel nitrogen atom transfer reactions employing inexpensive, less-toxic and biocompatible nature of iron and copper catalysis. Chapter II details the efficient and practical iron-catalyzed synthetic route to acyl sulfonamides based on nitrene/imido insertion into the formylic C−H bond of aldehydes. The methodology is aimed to expand the reaction tolerance toward a structurally diverse set of starting aldehydes and compliment earlier works mediated by Ru(II) and Cu(I) catalysts. Detailed mechanistic studies to delineate this amination process will also be discussed. In chapter III, the intriguing conversion of 2-alkyl substituted 1,3-dicarbonyl compounds to α-acyl-β-amino acid and 2,2-diacyl aziridine derivatives mediated by Cu(OTf)2 and PhI=NTs are described. Complete control of product selectivity in the reaction is shown to be possible through slight modification of the reaction conditions. Chapter IV addresses a highly efficient copper-catalyzed amination of various 1,3-dicarbonyls compounds as a convenient and effective route to ketone substituted α-amino acid derivatives. Chapter V presents the ligand-free iron-catalyzed α-amination of saturated heterocyclic compounds via a nitrogen atom insertion to the α-C−H bond of the substrates. The synthetic utility of this methodology is exemplified by ring-opening of the α-aminated products by various nucleophiles to provide a range of substituted diamine and amino alcohol compounds. Part III contains experimental data (Chapter VI) and references (Chapter VII) pertaining to this thesis. DOCTOR OF PHILOSOPHY (SPMS)

Published
2019

41. Cycloisomerization of 1,n-enyne and 1,n-diyne esters and carbonates to cyclic compounds via gold catalysis

Author

null Sally, Chan Wai Hong, Philip, Chiba Shunsuke, and School of Physical and Mathematical Sciences

Subjects
Science::Chemistry::Biochemistry [DRNTU]
Abstract

Organic compounds containing the azahetero-, carbo- and spirocylic structural motif are commonly found in a myriad of natural products and synthetic molecules of potent biological activity and materials applications. Gold catalyzed cycloisomerization of 1,n-enyne and 1,n-diyne systems have emerged as one of the most widely explored strategies to construct these cyclic compounds, particularly in intramolecular cycloisomerization reactions due to its atom economical nature. In such, we explored three methodologies of accessing cyclic compounds utilizing this approach. First, we developed an efficient gold(I) catalyzed cycloisomerization of 1,7-enyne esters as a viable method for the synthesis of various cis-1,2,3,6-tetrahydropyridin-4-yl ketones and -diketones. Next, we delienated the cycloisomerization of 1,6,8-dienyne carbonates and esters to the formation of cis-cyclohepta-4,8-diene-fused pyrrolidines. Lastly, a tandem [2,3]-sigmatropic rearrangement/Nazarov cyclisation/6-exo-dig cyclisation/1,5-acyl migration of 1-ene-4,10-diyne esters was explored. DOCTOR OF PHILOSOPHY (SPMS)

Published
2015

42. Diagnostic challenges of tuberculosis peritonitis in patients with and without end-stage renal failure.

Author

Chau TN, Leung VK, Wong S, Law ST, Chan WH, Luk IS, Luk WK, Lam SH, and Ho YW

Subjects
Adolescent, Adult, Aged, Aged, 80 and over, Female, Humans, Kidney Failure, Chronic microbiology, Male, Middle Aged, Peritonitis, Tuberculous complications, Peritonitis, Tuberculous microbiology, Retrospective Studies, Kidney Failure, Chronic complications, Peritonitis, Tuberculous diagnosis
Abstract

Background: Information about diagnostic features of tuberculosis (TB) peritonitis among patients with end-stage renal failure (ESRF), compared with those without ESRF, is limited. Here, we review our experience with TB peritonitis in patients with and without ESRF over a period of 11 years, with special reference to the clinical features of and diagnostic tools for TB peritonitis., Methods: The records of all patients with TB peritonitis who were seen at United Christian Hospital (Hong Kong) from 1996 through 2006 were reviewed. The diagnosis of TB peritonitis was based on (1) detection of mycobacteria on smear and/or Mycobacterium tuberculosis on culture of ascitic fluid and/or peritoneal biopsy specimens and/or (2) demonstration of caseating granulomata on histological assessment of peritoneal biopsy specimens., Results: During the study period, 52 patients (19 without ESRF and 33 with ESRF) had TB peritonitis. Patients with ESRF tended to have more-acute onset of symptoms and neutrophil-predominant peritoneal fluid, which mimicked bacterial peritonitis. Diagnosis was made earlier among patients without ESRF than among those with ESRF. Laparotomy or laparoscopy was the initial diagnostic tool for 12 patients (63%) without ESRF, whereas mycobacterial culture was the diagnostic method for 18 patients (55%) with ESRF., Conclusions: TB peritonitis has nonspecific and protean manifestations. It should be considered in the context of culture-negative peritonitis and in the context of culture-positive peritonitis that fails to respond to appropriate antibiotics. Laparoscopy with biopsy should be considered at an early stage when TB peritonitis is suspected.

Published
2007
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