Gallery Items tagged Japanese

日本数学会 | 年会・秋季総合分科会 | 一般講演・企画特別講演用 | 2011.10.31
日本数学会が作成されたクラスファイル一式を、坂東 慶太 (名古屋学院大学) がテンプレート登録しています(了承を得てません)。
詳細はこちら↓をご確認ください。
日本数学会・学術的会合・TEX Class files
https://www.mathsoc.jp/meeting/texstyle/
日本数学会

Visual Computing (VC) 2019 Template
Visual Computing (VC) 2019 Template
Hiroyuki Kubo

PASJ_Proc_Template_2020
Particle Accelerator Society of Japan (PASJ)
Template of proceedings of annual meeting of PASJ
加速器学会年会プロシーディングス(TeX用テンプレートファイル)
作成案内兼PDFファイル作成サンプルが含まれています。LaTeX (upLaTeX) または LuaLaTeX でコンパイルすることができます。
(c) Particle Accelerator Society of Japan. All Rights Reserved.
Particle Accelerator Society of Japan (PASJ)

An English LaTeX Template for KUEE
An English LaTeX Template for KUEE
Zhenghao Yin

TMU SD ICS THESIS TEMPLATE
首都大学東京システムデザイン学部情報通信システムコース卒論用テンプレート
Faculty of Tokyo System Design, Tokyo Metropolitan University Information and Communication System Course Graduation Template
Shohei Yokoyama

Customisable Calendar with Events (Japanese with upLaTeX)
Customisable calendars supporting different languages, sizes (normal, "giant" and "small"), colours and illustrations. The calendars can be marked with events with date ranges, with different markers and styles.
The default-sized calendars print 2-up on A4-sized papers and should fit CD jewel cases.
The "small" calendars print 4-up on A4-sized papers and should fit 3.5" floppy disk cases.
The "giant" calendars are full-page A4-sized.
Colours, illustrations, fonts etc are customisable.
Use the sundayweek document class option to make weeks start on Sundays.
Localisation possible with languages supported by babel/translator/datetime2.
This is an example of such a customisation for Japanese, to be compiled with (up)LaTeX. The original templates have been tested with british, spanish, french, ngerman, italian, portuges, polish, croatian, greek. (Probably works with other languages too.) Use the nobabel option and make your own customisations, for languages not supported by babel and/or translator.
Note: If you get an error when you change the language, try clearing the auxiliary files in your compile session.
Or fork it on Github!
LianTze Lim

Customisable Calendar with Events (Japanese with luatexja)
Customisable calendars supporting different languages, sizes (normal, "giant" and "small"), colours and illustrations. The calendars can be marked with events with date ranges, with different markers and styles.
The default-sized calendars print 2-up on A4-sized papers and should fit CD jewel cases.
The "small" calendars print 4-up on A4-sized papers and should fit 3.5" floppy disk cases.
The "giant" calendars are full-page A4-sized.
Colours, illustrations, fonts etc are customisable.
Use the sundayweek document class option to make weeks start on Sundays.
Localisation possible with languages supported by babel/translator/datetime2.
This is an example of such a customisation for Japanese, to be compiled with LuaLaTeX. The original templates have been tested with british, spanish, french, ngerman, italian, portuges, polish, croatian, greek. (Probably works with other languages too.) Use the nobabel option and make your own customisations, for languages not supported by babel and/or translator.
Note: If you get an error when you change the language, try clearing the auxiliary files in your compile session.
Or fork it on Github!
LianTze Lim

Multilingual "Thank-You"
Since my research is related to multilingual dictionaries, I have the excuse of using this TikZ drawing of multilingual "thank you's" at the end of my presentations.
It had the advantage/disadvantage of distracting the audience enough from raising nit-picking, asked-just-for-sake-for-asking types of questions. :-)
If compiling this takes too long, the best way to use this is probably to use the result PDF directly via e.g. \includegraphics[page=1]{multiling-tq.pdf}
BTW -- can you spot the two fictional languages? :-)
LianTze Lim

Master's Course Thesis
AKARI and Spinning Dust:
A look at microwave dust emission via the Infrared
Aaron C. Bell's Master's Course Thesis
ABSTRACT:
Rapidly spinning dust particles having a permanent electric dipole moment have been shown to be a likely carrier of the anomalous microwave emission (AME), a continuous excess of microwave flux in the 10 to 90 GHz range. Small grains, possibly polycyclic aromatic hydrocarbons (PAHs), are a leading suspect. In the absence of a definitive answer on the presence of PAHs or their role as an AME carrier, some predictions have been made as to the implications of spinning PAH emission. Due to the overlap between the CMB and the galactic foreground, this topic is requiring cosmologists to consider the ISM with more care. ISM astronomers are also needing to consider the contribution of cosmological radiation to large-scale dust investigations. We present data from AKARI/Infrared Camera (IRC) due to the effective PAH band coverage of its 9 micron survey to investigate their role within the 98 AME candidate regions identified by Planck Collaboration et al. (2014). We supplement AKARI data with the four Infrared Astronomical Satellite (IRAS) all-sky maps and complement with the Planck High Frequency Instrument (HFI) bands at 857 and 545 GHz to constrain the full dust thermal spectral energy distribution (SED). We sample the average spectral energy distributions (SEDs) all 98 regions. We utilize all 7 AKARI photometric bands, as well as the 4 IRAS bands and 2 HFI. We carry out a modified blackbody fitting, and estimate the optical depth of thermal dust at 250 micron, and compare this to AME parameters. We also show plots of each band's average intensity for all 98 regions vs. AME parameters. We find a positive trend between the optical depth and AME. In the band-by-band comparison the AKARI 9 micron intensity shows a weaker trend with AME. In general, the MIR correlates less strongly with AME than the FIR. The optical depth vs. AME trend improves slightly when looking only at significant AME regions. Scaling the IR intensities by the ISRF strength G0 does not improve the correlations. A slightly positive trend found previously among 10 AME regions vs. AME significance is revisited, using the larger sample of 98. However the trend does not hold up to the full data set. We cannot offer strong support of a spinning dust model. The results highlight the need for full dust SED modelling, and for a better understanding of the role that magnetic dipole emission from dust grains could play in producing the AME.
aaron c. bell