Cleared template

Appendix-A/Appendix-A.tex

@@ -7,33 +7,8 @@ A summary of all acronyms is documented in Table \ref{tab:acro}.
 \hline
 Acronym & Abbreviation \\
 \hline
-African Easterly Wave & AEW \\
-African Easterly Jet & AEJ \\
-African Monsoon Multidisciplinary Analysis & AMMA \\
-Climate Forecasting System Reanalysis & CFSR \\
-Convective Available Potential Energy & CAPE \\
-Dry Adiabatic Lapse Rate & DALR \\
-European Centre for Medium Range Weather Forecasting & ECMWF \\
-Eddy Kinetic Energy & EKE \\
-GARP Atlantic Tropical Experiment & GATE \\
-Global Forecast System & GFS \\
-Global Precipitation Mission & GPM \\
-Long Wave (Radiation) & LW \\
-Mesoscale Convective System & MCS \\
-National Aeronautical and Space Administration & NASA \\
-National Center for Atmospheric Research & NCAR \\
-National Center for Environmental Prediction & NCEP \\
-National Hurricane Center & NHC \\
-National Science Foundation & NSF \\
-Planetary Boundary Layer & PBL \\
-Potential Vorticity & PV \\
-Short Wave (Radiation) & SW \\ 
-Quasi-Geostrophic & QG \\
-Rossby Wave & RW \\
-Tropical Cyclone & TC \\
-TRMM Multi-Satellite Precipitation Analysis & TMPA \\
-Tropical Rainfall Measurement Mission & TRMM \\
-Weather Research and Forecasting Model & WRF \\
+AC1 & Acronym 1 \\
+AC2 & Acronym 2 \\
 \hline
 \end{longtable}
 

Appendix-B/Appendix-B.tex

@@ -1,37 +1,5 @@
-\chapter{Variables}
+\chapter{Mathematica identities}
 
-A summary of all variables is documented in Table \ref{tab:vars}.
+A summary of mathematical identities used in derivations is given below.
 
-\begin{longtable}{| l | l |}
-\caption{A summary of common meteorological variables and their abbreviations in alphabetical order.}\label{tab:vars}\\
-\hline 
-Variable & Abbreviation \\
-\hline
-Arbitrary variable & $X$ \\
-Absolute vorticity vector & $\vec{\eta}$ \\
-Coriolis parameter & $f$ \\
-Gas constant for dry air & $R$ \\
-Geopotential & $\Phi$ \\
-Geopotential height & $Z$ \\
-Gravitational accelleration & $g$ \\
-Horizontal wind vector & $\vec{V}$ \\
-Isobaric vertical motion & $\omega$ \\
-Latent heat of vaporization & $l_v$ \\
-Meridional unit vector & $\hat{j}$ \\
-Meridional wind & $v$ \\
-Potential temperature & $\theta$ \\
-Potential vorticity & $P$ \\
-Pressure & $p$ \\
-Relative vorticity vector & $\vec{\zeta}$  \\
-Specific density & $\alpha$ \\
-Specific heat capacity at constant pressure & $c_p$ \\
-Temperature & $T$ \\
-Time & $t$ \\
-Three-dimensional wind vector & $\vec{U}$ \\
-Vertical absolute vorticity & $\eta$ \\
-Vertical unit vector & $\hat{k}$ \\
-Vertical relative vorticity & $\zeta$ \\
-Zonal unit vector & $\hat{i}$ \\
-Zonal wind & $u$ \\
-\hline
-\end{longtable}
+[\ldots]

Chapter-1/Chapter-1.tex

@@ -1,68 +1,4 @@
-\chapter{INTRODUCTION}
-\label{chap-one}
+\chapter{Introduction}
+\label{chap:Introduction}
 
-%% Following sections are examples... not required
-%--
-\section{Definitions}
-\label{sec:def}
-%--
-
-Define common terms used throughout the dissertation... 
-
-E.g. African Easterly Waves (AEWs) are waves in the atmosphere over Africa of wavelength ...
-
-%--
-\section{Motivations}
-\label{sec:mot}
-%--
-
-Motivations for studying topic
-
-Figure useful to motivations
-
-\begin{figure}[htp]
-\centering
-\includegraphics[width=\textwidth]{Chapter-1/figs/Damage.png}
-\caption{Caption...}
-\label{fig:damage}
-\end{figure}
-
-Figure with trim and clip
-\begin{figure}[htp]
-\centering
-\includegraphics[trim={4cm 8.5cm 3cm 0cm},clip,width=\textwidth]{Chapter-1/figs/gfgnge_vs_year.eps}
-\caption{Caption...}
-\label{fig:gfgn}
-\end{figure}
-
-%--
-\section{Background}
-\label{sec:back}
-%--
-
-Background literature on topic
-
-Possible citation in parentheses \citep{kiladis2006three} 
-
-Possible citation in parentheses with text before or after also in parentheses \citep[e.g. ][ Figure 1]{kiladis2006three} 
-
-Citation in text \citet{tomassini2017interaction}
-
-%----------
-\section{Open Questions and Theories}
-\label{sec:que}
-%----------
-
-In this section I will present the open questions on the problem I am investigating. 
-
-\subsection{Influence of AEWs on Convection}
-\label{sec:QTaew-conv}
-
-Background on theories
-
-In summary we will attempt to address the following questions with regard to ...:
-\begin{enumerate}
-\item Question 1?
-\item Question 2?
-\item Question 3?
-\end{enumerate}
+[\ldots]

Chapter-2/Chapter-2.tex

@@ -1,45 +1,4 @@
-\chapter{METHODS}
-\label{chap:meth}
+\chapter{Formalism}
+\label{chap:Formalism}
 
-%--
-\section{Data}
-\label{sec:dat}
-%--
-
-Reference to data Table \ref{tab:data}
-
-\begin{table}[htp]
-\caption{Caption...}\label{tab:data}
-\begin{center}
-\begin{tabular}{| c | c c |}
-\hline
-Parameterization & Scheme & WRF Option \\
-\hline
- ... & ... & ... \\
- ... & ... & ... \\
-
- \hline
-\end{tabular}
-\end{center}
-\end{table}
-
-\subsection{Analyses}
-
-E.g. Statistical analyses
-
-\subsection{Math}
-
-Simple one-line equation
-\begin{equation}
-\frac{\partial u}{\partial t} +u\frac{\partial u}{\partial x} +v\frac{\partial u}{\partial y} +\omega\frac{\partial u}{\partial p} = fv -\frac{\partial \Phi}{\partial x} + F_x,
-\label{eqn:momu}
-\end{equation}
-
-Multi-line equation
-\begin{align}
-\begin{split}
-\vec{\nabla}\theta \cdot \frac{D}{Dt}\vec{\eta} &= \vec{\nabla}\theta \cdot (\vec{\eta}\cdot\vec{\nabla})\vec{U} + \vec{\nabla}\theta \cdot (\vec{\nabla}\times\vec{\nabla}_p\Phi) +  \vec{\nabla}\theta \cdot \vec{\nabla}\times\vec{F}  \\
-&=  (\vec{\eta}\cdot\vec{\nabla})\vec{U} \cdot (\vec{\nabla}\theta) + \vec{\nabla}\theta \cdot \vec{\nabla}\times\vec{F}
-\label{eqn:vort4}
-\end{split}
-\end{align}
+[\ldots]

Chapter-3/Chapter-3.tex

@@ -1,3 +1,4 @@
-\chapter{Results 1}
+\chapter{Finite volume}
+\label{chap:Finite_volume}
 
-bla bla bla ...
+[\ldots]

Chapter-4/Chapter-4.tex

@@ -1,4 +1,4 @@
-\chapter{Results 2}
-\label{chap:res2}
+\chapter{Resonances}
+\label{chap:Resonances}
 
-bla bla bla ...
+[\ldots]

Chapter-5/Chapter-5.tex

@@ -1,4 +1,4 @@
-\chapter{Results 3}
-\label{chap:res3}
+\chapter{Eigenvector continuation}
+\label{chap:Eigenvector_continuation}
 
-bla bla ...
+Introduced in Ref.~\cite{Frame:2017fah}.

Chapter-6/Chapter-6.tex

@@ -1,14 +1,4 @@
-\chapter{CONCLUSIONS}
-\label{chap:conc}
+\chapter{Conclusions}
+\label{chap:Conclusions}
 
-% Example headers
-\section{Summary of Results}
-\label{sec:summ}
-
-
-\section{Overarching Conclusions}
-\label{sec:conc}
-
-
-\section{Future Work}
-\label{sec:future}
+[\ldots]

NuwanYapa-thesis.bib

@@ -1,132 +1,11 @@
-%
-% Most common journal abbreviations:
-% BAMS   = Bulletin of the american meteorological society
-% JAS    = Journal of atmospheric science
-% JAM    = Journal of applied meteorology
-% MAP    = Meteorology and atmospheric physics
-% MWR    = Monthly weather review
-% QJRMS  = Quarterly journal of the royal meteorological society
-% RGEO   = Reviews in geophysics
-% TELLUS = Tellus
-% JCE    = Journal of climate
-% JCY    = Journal of climatology
-% GRL    = Geophysical research letters
-% JGR    = Journal of geophysical research
-%
-%
-% JOURNAL ABBREVIATIONS (delete if not using American Meteorological society guidelines)
-%
-
-@STRING{AMS 	  = "Amer.\ Meteor.\ Soc."}
-@STRING{AGU 	  = "Amer.\ Geophys.\ Union"}
-@STRING{AIP 	  = "Amer. Inst. Phys."}
-@STRING{ADGEO     = "Adv.\ Geosci."}
-@STRING{ADMET     = "Adv.\ Meteor."}
-@STRING{AFM       = "Agric.\ For.\ Meteor."}
-@STRING{AM        = "Ann.\ Meteor."}
-@STRING{AN        = "Astrophys.\ Norv."}		% Astrophysica Norvegica
-@STRING{AO        = "Atmos.-Ocean"}			% Atmosphere-Ocean, published by Canadian Meteorological Society (CMOS)
-@STRING{AR        = "Atmos.\ Res."}			% Atmospheric Research
-@STRING{ARFM      = "Annu.\ Rev.\ Fluid Mech."}
-@STRING{AUMET     = "Aust.\ Meteor.\ Mag."}
-@STRING{BAMS      = "Bull.\ Amer.\ Meteor.\ Soc."}
-@STRING{BLM		  = "Boundary-layer\ Meteor."}
-@STRING{BWMO      = "Bull.\ World\ Meteor.\ Org."}
-@STRING{CAP       = "Contrib.\ Atmos.\ Phys."}
-@STRING{CC        = "Climate Change"}      % Climate Change 
-@STRING{CCH       = "Climatic Change"}			% Climatic Change
-@STRING{CDYN      = "Clim.\ Dynam."}
-@STRING{CHAOS     = "Chaos"}
-@STRING{COL       = "Collier's"}
-@STRING{CRS       = "Cont.\ Shelf Res."}
-@STRING{DAO       = "Dyn.\ Atmos.\ Oceans"}
-@STRING{ECO       = "Ecology"}
-@STRING{EI        = "Earth Interactions"}
-@STRING{GA        = "Geophysica"}			% Geophysica, published by Geophysical Society of Finland 
-@STRING{GEOMAG    = "Geophys.\ Mag."}
-@STRING{GN        = "Geophys.\ Norv."}			% Geophysica Norvegica
-@STRING{GRL       = "Geophys.\ Res.\ Lett."}
-@STRING{GEOINT    = "Geofis.\ Int."}			% Geofisica Internacional (Mexican journal -- vols. 3-5 contained proceedings from a hurricane conference
-@STRING{GEOPUB    = "Geofys.\ Publ."}
-@STRING{GPC       = "Global Planet.\ Change"}
-@STRING{HP        = "Health Phys."}
-@STRING{IAOP      = "Izv.\ Atmos.\ Ocean.\ Phys.\ (Engl.\ Transl.)"}
-@STRING{IJC       = "Int.\ J.\ Climatol."}
-@STRING{JAM       = "J.\ Appl.\ Meteor."}		% renamed to name below in 2006
-@STRING{JAMC      = "J.\ Appl.\ Meteor.\ Climatol."}  	% Journal of Applied Meteorology and Climatology (this journal used to be called the Journal of Applied Meteorology before 2006)
-@STRING{JAS       = "J.\ Atmos.\ Sci."}
-@STRING{JAOT      = "J.\ Atmos.\ Oceanic Technol."}
-@STRING{JCAM      = "J.\ Climate Appl.\ Meteor."}	% now this is JAMC?
-@STRING{JCLI      = "J.\ Climate"}
-@STRING{JCR       = "J.\ Coastal Res."}
-@STRING{JES       = "J.\ Earth Syst.\ Sci."}    % Journal of Earth System Science
-@STRING{JEM       = "J.\ Eng.\ Math."}			% Journal of Engineering Mathematics
-@STRING{JFM       = "J.\ Fluid\ Mech."}
-@STRING{JGR       = "J.\ Geophys.\ Res."}
-@STRING{JHM       = "J.\ Hydrometeor."}
-@STRING{JHE		  = "J.\ Hydrologic.\ Eng."}
-@STRING{JMS       = "J.\ Mar.\ Syst."}
-@STRING{JM        = "J.\ Meteor."}
-@STRING{JMR       = "J.\ Mar.\ Res."}
-@STRING{JMSJ      = "J.\ Meteor.\ Soc.\ Japan"}
-@STRING{JPO       = "J.\ Phys.\ Oceanogr."}
-@STRING{JOCEAN    = "J.\ Oceanogr."}			% Journal of Oceanography
-@STRING{JOSJ      = "J.\ Oceanogr.\ Soc.\ Japan"}
-@STRING{JSE       = "J.\ Struct.\ Eng."}	% Journal of Structural Engineering at ASCE
-@STRING{JTM       = "J.\ Tropical Meteor."}
-@STRING{JWEIA     = "J.\ Wind Eng.\ Ind.\ Aerodyn."}
-@STRING{MA        = "Meteor.\ Appl."}
-@STRING{MAP       = "Meteor.\ Atmos.\ Phys."}
-@STRING{METMON    = "Meteor.\ Monogr."}
-@STRING{METZEIT   = "Meteor.\ Z."}
-@STRING{MWL       = "Mar.\ Wea.\ Log"}
-@STRING{MWR       = "Mon.\ Wea.\ Rev."}
-@STRING{NAT       = "Nature"}
-@STRING{NAG       = "Nat.\ Geosci."}
-@STRING{NHR       = "Natural Hazards Rev."}
-@STRING{NWD       = "Natl.\ Weather Dig."}
-@STRING{OA        = "Oceanol. Aeta"}
-@STRING{OCEAN     = "Oceanography"}                	% a quarterly journal of The Oceanography Society
-@STRING{PAG       = "Pure Appl.\ Geophys."}
-@STRING{PF        = "Phys.\ Fluids"}
-@STRING{PHYSD     = "Physica D"}
-@STRING{PMG       = "Pap.\ Meteor.\ Geophys."}	% Papers in Meteorology and Geophysics
-@STRING{PNAS      = "Proc.\ Natl.\ Acad.\ Sci.\ (USA)"}
-@STRING{PRE       = "Phys.\ Rev.\ E"}
-@STRING{PRSA      = "Proc.\ Roy.\ Soc.\ A."}
-@STRING{PT        = "Phys.\ Today"}
-@STRING{PTRS      = "Philos.\ Trans.\ Roy.\ Soc.\ London\ A"}
-@STRING{QJRMS     = "Quart.\ J.\ Roy.\ Meteor.\ Soc."}
-@STRING{RGEO      = "Rev. Geophys."}
-@STRING{SCI       = "Science"}
-@STRING{SOLA      = "SOLA"}				% Scientific Online Letters on the Atmosphere
-@STRING{TAGU      = "Eos, Trans.\ Amer.\ Geophys.\ Union"}
-@STRING{TCD		  = "Cryo.\ Disc."}
-@STRING{TELLUS    = "Tellus"}
-@STRING{TCFD      = "Theor.\ Comput.\ Fluid Dyn."}
-@STRING{WEA       = "Weather"}
-@STRING{WW        = "Weatherwise"}
-@STRING{WF        = "Wea.\ Forecasting"}
-@STRING{WMOB      = "WMO Bull."}
-
-  
-@article			{kiladis2006three,
-  title=			{{Three-dimensional structure and dynamics of African easterly waves. Part I: Observations}},
-  author=			{Kiladis, George N and Thorncroft, Chris D and Hall, Nicholas MJ},
-  journal=			JAS,
-  volume=			{63},
-  number=			{9},
-  pages=			{2212--2230},
-  year=				{2006}
-}
-
-@article			{tomassini2017interaction,
-  title=			{{The interaction between moist diabatic processes and the atmospheric circulation in African Easterly Wave propagation}},
-  author=			{Tomassini, Lorenzo and Parker, Douglas J and Stirling, Alison and Bain, Caroline and Senior, Catherine and Milton, Sean},
-  journal=			QJRMS,
-  volume=			{143},
-  number=			{709},
-  pages=			{3207--3227},
-  year=				{2017},
-  publisher=		{Wiley Online Library}
+ @article{Frame:2017fah,
+  title = {Eigenvector {{Continuation}} with {{Subspace Learning}}},
+  author = {Frame, Dillon and He, Rongzheng and Ipsen, Ilse and Lee, Daniel and Lee, Dean and Rrapaj, Ermal},
+  year = {2018},
+  journal = {Phys. Rev. Lett.},
+  volume = {121},
+  number = {3},
+  pages = {032501},
+  publisher = {{American Physical Society}},
+  doi = {10.1103/PhysRevLett.121.032501}
 }

NuwanYapa-thesis.tex

@@ -105,7 +105,7 @@
 %%  Note: To break the title onto multiple lines, use \break instead of \\.
 %\thesistitle{A North Carolina State University Sample \LaTeX{} Thesis \break 
 %with a Title So Long it Needs a Line Break}
-\thesistitle{Dissertation title}
+\thesistitle{Quantum few-body problem in nuclear theory}
 
 %% Degree year. Necessary if your degree year doesn't equal the current year.
 %\degreeyear{1995}

front.tex

@@ -20,7 +20,7 @@ Abstract text ...
 
 %% -------------------------------- Biography ------------------------------- %%
 \begin{biography}
-The author was born in a small town \ldots
+The author was born in Kandy, Sri Lanka. \ldots
 \end{biography}
 
 %% ----------------------------- Acknowledgements --------------------------- %%