From 05de4fe85f1b495695ce45c77b783b869787cc80 Mon Sep 17 00:00:00 2001 From: Hasan al Rasyid Date: Mon, 14 Mar 2022 10:39:18 +0900 Subject: [PATCH] creating --- manuscript.bib | 12 ++++++++++++ manuscript.md | 21 ++++++++++++++++----- 2 files changed, 28 insertions(+), 5 deletions(-) diff --git a/manuscript.bib b/manuscript.bib index ac29a99..0de907d 100644 --- a/manuscript.bib +++ b/manuscript.bib @@ -73,3 +73,15 @@ number = "3", pages = "211--229" } + +@misc{markdownguide_basic_2022, + title = {Basic {Syntax} {\textbar} {Markdown} {Guide}}, + url = {https://www.markdownguide.org/basic-syntax/}, + abstract = {The Markdown elements outlined in the original design document.}, + language = {en}, + urldate = {2022-03-14}, + author = {MarkdownGuide}, + month = mar, + year = {2022}, + file = {Snapshot:/home/aku/.zotero/zotero/cj95rjne.default/zotero/storage/DKAK9X7J/basic-syntax.html:text/html}, +} diff --git a/manuscript.md b/manuscript.md index b847baa..656449a 100644 --- a/manuscript.md +++ b/manuscript.md @@ -25,14 +25,13 @@ appendix: - appendix/1 - appendix/2 abstractTex: - \abstract{To investigate the physical nature of the `nuc\-leated instability' of + \abstract{To investigate the physical nature of the 'nuc\-leated instability' of proto giant planets, the stability of layers in static, radiative gas spheres is analysed on the basis of Baker's standard one-zone model.} - {To investigate the physical nature of the `nuc\-leated instability' of + {To investigate the physical nature of the 'nuc\-leated instability' of proto giant planets, the stability of layers in static, radiative gas spheres is analysed on the basis of Baker's standard one-zone model.} {It is shown that stability depends only upon the equations of state, the opacities and the local thermodynamic state in the layer. Stability and instability can therefore be expressed in the form of stability equations of state which are universal for a given composition.} {The stability equations of state are calculated for solar composition and are displayed in the domain $-14 \leq \lg \rho / \mathrm{[g\, cm^{-3}]} \leq 0 $, $ 8.8 \leq \lg e / \mathrm{[erg\, g^{-1}]} \leq 17.7$. These displays may be used to determine the one-zone stability of layers in stellar or planetary structure models by directly reading off the value of the stability equations for the thermodynamic state of these layers, specified by state quantities as density $\rho$, temperature $T$ or specific internal energy $e$. Regions of instability in the $(\rho,e)$-plane are described and related to the underlying microphysical processes.} - {Vibrational instability is found to be a common phenomenon at temperatures lower than the second He ionisation zone. The $\kappa$-mechanism is widespread under `cool' conditions.} - {} + {Vibrational instability is found to be a common phenomenon at temperatures lower than the second He ionisation zone. The $\kappa$-mechanism is widespread under 'cool' conditions.} keywords: giant planet formation -- $\kappa$-mechanism -- stability of gas spheres acknowledgements: Part of this work was supported by the German @@ -40,12 +39,13 @@ acknowledgements: number Ts 17/2--1. include-headers: | \newcommand\mC[1]{\multicolumn{1}{c}{#1}} + \newcommand\latex{\LaTeX\xspace } --- # Introduction -In the *nucleated instability* (also called core +In the 'nucleated instability' (also called core instability) hypothesis of giant planet formation, a critical mass for static core envelope protoplanets has been found. \citet{langley00} determined @@ -74,6 +74,17 @@ similarities in the (micro)physics, i.e., constitutive relations of protostellar cores and protogiant planets serve as a further motivation for this study. +# Markdown + +pubsEngine use Markdown text-file as an input to be processed into \latex document. +Markdown is a very simplified text markup language. +This section would shows several common syntax of Markdown. +More detailed syntax can be accessed in the Markdown cheatsheet. + +1. Headings : on various levels, headings should be shown as a line that prefixed by \verb{#}. (Ex. \verb{# The First Level Heading}). Please include space after \verb{#}. +2. + + # Baker's standard one-zone model