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A gallery of up-to-date and stylish LaTeX templates, examples to help you learn LaTeX, and papers and presentations published by our community. Search or browse below.

BREE Intern research paper template
BREE Intern research paper template
A simple research paper template for BREE interns
Maike Holthuijzen
Paolo Didonè's CV
Paolo Didonè's CV
CV
Paolo Didonè
Modern CV and Cover Letter
Modern CV and Cover Letter
A multi-page CV and cover letter, using the updated moderncv document class. There are template files for Spanish and Chinese (should work for Japanese and Korean as well), as well as a number of built-in styles and colour themes. You can change to a different main file to use a different template.
Xavier Danaux
IMC45 Paper Template
IMC45 Paper Template
This is the Persian IMC45 paper's template. این فایل قالب مقالات چهل و پنجمین کنفرانس ریاضی ایران است.
imc45.semnan.ac.ir
Tesis Posgrado Conjunto en Ciencias Matemáticas UMSNH-UNAM
Tesis Posgrado Conjunto en Ciencias Matemáticas UMSNH-UNAM
Este es el formato que usé para graduarme del PCCM
Antonio Montero
Package example using the rubikcube package
Package example using the rubikcube package
Example - the `superflip' configuration Once you have mastered Rubik's cube, then an interesting exercise is to generate the so-called `superflip' configuration, in which all the corners are correctly solved, while all the edges are flipped. For the impatient, the superflip sequence of 24 quarter-turn rotations (listed on Randelshofer's website) is as follows. This converts the solved cube on the left into the configuration shown on the right. Rubik package on CTAN: http://www.ctan.org/tex-archive/macros/latex/contrib/rubik
Apos­to­los Sy­ropou­los, Dick Nick­alls
GaN-Substrate LEDs: Introduction nPola
GaN-Substrate LEDs: Introduction nPola
Seoul Semiconductor’s patented nPola technology increases brightness levels 5 times over existing LEDs. This technology took more than 10 years to develop and is set to revolutionise the LED lighting industry. nPola stands for Numerous polarities and is related to the substrate in which the LED is grown. nPola is grown on a GaN (Gallium nitride) substrate, whereas conventional LEDs use Sapphire or Silicone substrate in which most of the energy is converted to heat instead of light due to a defect caused by lattice mismatch. nPola, however, does not have the lattice mismatch issue like conventional LEDs because the GaN epitaxy has the same crystalline structure as the GaN growth substrate. Furthermore, nPola technology involves the utilization of the one of the nPola non-polar planes in the GaN crystal, either the a-plane or m-plane, whereas traditional LEDs currently utilize the polar c-plane GaN epitaxy on Sapphire or Silicon. nPola LEDs offer reduced electrical resistance, increased electrical efficiency, reduction in colour shift with varying operating current and smaller device size. With nPola, Seoul Semiconductor has already improved the lumen density of LEDs by 5 times over the conventional LEDs based on equivalent die surface area and it expects to further improve this margin to 10 times in future.
JaeHon, Kim
2. Рисунки и таблицы
2. Рисунки и таблицы
Этот шаблон документа разработан в 2014 году Данилом Фёдоровых (danil@fedorovykh.ru) для использования в курсе >, записанном НИУ ВШЭ для Coursera.org: http://coursera.org/course/latex. Исходная версия шаблона --- https://www.writelatex.com/coursera/latex/2.
Danil Fedorovykh