This package provides the preferred document class for papers to be submitted to Quantum --- the open journal of quantum science. It is based on the article document class.

As a service to authors, the document class comes with a predefined bibliography style quantum.bst that is optimized to be used with the quantumarticle document class. Additionally, the quantumview document class is provided, which can be used as a proxy to typeset the HTML-only editorial pieces in Quantum Views.

The quantumarticle document class also offers an option to remove the Quantum-related branding. In that way, users can use it for their notes as well.

This package provides an extended set of fonts for use in mathematics, including: extra mathematical symbols; blackboard bold letters (uppercase only); fraktur letters; subscript sizes of bold math italic and bold Greek letters; subscript sizes of large symbols such as sum and product; added sizes of the Computer Modern small caps font; cyrillic fonts (from the University of Washington); Euler mathematical fonts. All fonts are provided as Adobe Type 1 files, and all except the Euler fonts are provided as METAFONT source. The distribution also includes the canonical Type 1 versions of the Computer Modern family of fonts. The Euler fonts are supported by separate packages; details can be found in the documentation.

LaTeX users sometimes need to ensure that two or more blocks of text occupy the same amount of horizontal space on the page. To that end, the eqparbox package defines a new command, \eqparbox, which works just like \parbox, except that instead of specifying a width, one specifies a tag. All eqparboxes with the same tag---regardless of where they are in the document---will stretch to fit the widest eqparbox with that tag. This simple, equal-width mechanism can be used for a variety of alignment purposes, as is evidenced by the examples in eqparbox's documentation. Various derivatives of \eqparbox are also provided.

This package provides an extended set of fonts for use in mathematics, including: extra mathematical symbols; blackboard bold letters (uppercase only); fraktur letters; subscript sizes of bold math italic and bold Greek letters; subscript sizes of large symbols such as sum and product; added sizes of the Computer Modern small caps font; cyrillic fonts (from the University of Washington); Euler mathematical fonts. All fonts are provided as Adobe Type 1 files, and all except the Euler fonts are provided as METAFONT source. The distribution also includes the canonical Type 1 versions of the Computer Modern family of fonts. The Euler fonts are supported by separate packages; details can be found in the documentation.

This package provides a set of templates for using LaTeX packages that the author uses, comprising:

• scrlttr2.tex: a letter, written with scrlttr2.cls from the KOMA-Script bundl,

• dinbrief.tex: a letter according to the German (DIN) standards, written with dinbrief.cls,

• kbrief.tex: a brief memo (Kurzbrief) to accompany enclosures, as used in German offices, again based on dinbrief,

• vermerk.tex: a general form for taking down notes on events in the office,

• diabetes.tex: a diary for the basis-bolus insulin therapy of diabetes mellitus, using scrartcl.cls from the KOMA-Script bundle.

This package provides a set of m4 macros for drawing high-quality electric circuits containing fundamental elements, amplifiers, transistors, and basic logic gates to include in TeX, LaTeX, or similar documents. Some tools and examples for other types of diagrams are also included. The macros can be evaluated to drawing commands in the pic language, which contains elements of a simple programming language, and is well-suited to line drawings requiring parametric or conditional components, fine tuning, significant geometric calculations or repetition, or that are naturally block structured or tree structured. Alternative output macros can create TeX output to be read by PSTricks, TikZ commands for use by the PGF bundle, or SVG.

This package provides macros to make the file I/O in plain TeX more transparent. That is, every \input, \openin, and \openout operation by TeX is presented to the user who must check carefully if the file name of the source is acceptable. The user must sometimes enter additional text and has to specify the file name that the TeX operation should use. The macros require a complex installation procedure; the package contains Sed and Bash scripts. Every installation is different from any other as password-protected macro names and private messages have to be chosen by the installer. Therefore, the files in the package cannot be used directly. For details see the manual.

Modern native UTF-8 engines such as XeTeX and LuaTeX need hyphenation patterns in UTF-8 format, whereas older systems require hyphenation patterns in the 8-bit encoding of the font in use (such encodings are codified in the LaTeX scheme with names like OT1, T2A, TS1, OML, LY1, etc). The present package offers a collection of conversions of existing patterns to UTF-8 format, together with converters for use with 8-bit fonts in older systems.

This Guix-specific package provides hyphenation patterns for all languages supported in TeX Live. It is a strict super-set of codehyphen-base package and should be preferred to it whenever a package would otherwise depend on hyph-utf8.

Modern native UTF-8 engines such as XeTeX and LuaTeX need hyphenation patterns in UTF-8 format, whereas older systems require hyphenation patterns in the 8-bit encoding of the font in use (such encodings are codified in the LaTeX scheme with names like OT1, T2A, TS1, OML, LY1, etc). The present package offers a collection of conversions of existing patterns to UTF-8 format, together with converters for use with 8-bit fonts in older systems.

This Guix-specific package provides hyphenation patterns for all languages supported in TeX Live. It is a strict super-set of codehyphen-base package and should be preferred to it whenever a package would otherwise depend on hyph-utf8.

Modern native UTF-8 engines such as XeTeX and LuaTeX need hyphenation patterns in UTF-8 format, whereas older systems require hyphenation patterns in the 8-bit encoding of the font in use (such encodings are codified in the LaTeX scheme with names like OT1, T2A, TS1, OML, LY1, etc). The present package offers a collection of conversions of existing patterns to UTF-8 format, together with converters for use with 8-bit fonts in older systems.

This Guix-specific package provides hyphenation patterns for all languages supported in TeX Live. It is a strict super-set of codehyphen-base package and should be preferred to it whenever a package would otherwise depend on hyph-utf8.

Modern native UTF-8 engines such as XeTeX and LuaTeX need hyphenation patterns in UTF-8 format, whereas older systems require hyphenation patterns in the 8-bit encoding of the font in use (such encodings are codified in the LaTeX scheme with names like OT1, T2A, TS1, OML, LY1, etc). The present package offers a collection of conversions of existing patterns to UTF-8 format, together with converters for use with 8-bit fonts in older systems.

This Guix-specific package provides hyphenation patterns for all languages supported in TeX Live. It is a strict super-set of codehyphen-base package and should be preferred to it whenever a package would otherwise depend on hyph-utf8.

Modern native UTF-8 engines such as XeTeX and LuaTeX need hyphenation patterns in UTF-8 format, whereas older systems require hyphenation patterns in the 8-bit encoding of the font in use (such encodings are codified in the LaTeX scheme with names like OT1, T2A, TS1, OML, LY1, etc). The present package offers a collection of conversions of existing patterns to UTF-8 format, together with converters for use with 8-bit fonts in older systems.

This Guix-specific package provides hyphenation patterns for all languages supported in TeX Live. It is a strict super-set of codehyphen-base package and should be preferred to it whenever a package would otherwise depend on hyph-utf8.

Modern native UTF-8 engines such as XeTeX and LuaTeX need hyphenation patterns in UTF-8 format, whereas older systems require hyphenation patterns in the 8-bit encoding of the font in use (such encodings are codified in the LaTeX scheme with names like OT1, T2A, TS1, OML, LY1, etc). The present package offers a collection of conversions of existing patterns to UTF-8 format, together with converters for use with 8-bit fonts in older systems.

This Guix-specific package provides hyphenation patterns for all languages supported in TeX Live. It is a strict super-set of codehyphen-base package and should be preferred to it whenever a package would otherwise depend on hyph-utf8.

Modern native UTF-8 engines such as XeTeX and LuaTeX need hyphenation patterns in UTF-8 format, whereas older systems require hyphenation patterns in the 8-bit encoding of the font in use (such encodings are codified in the LaTeX scheme with names like OT1, T2A, TS1, OML, LY1, etc). The present package offers a collection of conversions of existing patterns to UTF-8 format, together with converters for use with 8-bit fonts in older systems.

This Guix-specific package provides hyphenation patterns for all languages supported in TeX Live. It is a strict super-set of codehyphen-base package and should be preferred to it whenever a package would otherwise depend on hyph-utf8.

Modern native UTF-8 engines such as XeTeX and LuaTeX need hyphenation patterns in UTF-8 format, whereas older systems require hyphenation patterns in the 8-bit encoding of the font in use (such encodings are codified in the LaTeX scheme with names like OT1, T2A, TS1, OML, LY1, etc). The present package offers a collection of conversions of existing patterns to UTF-8 format, together with converters for use with 8-bit fonts in older systems.

This Guix-specific package provides hyphenation patterns for all languages supported in TeX Live. It is a strict super-set of codehyphen-base package and should be preferred to it whenever a package would otherwise depend on hyph-utf8.

Modern native UTF-8 engines such as XeTeX and LuaTeX need hyphenation patterns in UTF-8 format, whereas older systems require hyphenation patterns in the 8-bit encoding of the font in use (such encodings are codified in the LaTeX scheme with names like OT1, T2A, TS1, OML, LY1, etc). The present package offers a collection of conversions of existing patterns to UTF-8 format, together with converters for use with 8-bit fonts in older systems.

This Guix-specific package provides hyphenation patterns for all languages supported in TeX Live. It is a strict super-set of codehyphen-base package and should be preferred to it whenever a package would otherwise depend on hyph-utf8.

Modern native UTF-8 engines such as XeTeX and LuaTeX need hyphenation patterns in UTF-8 format, whereas older systems require hyphenation patterns in the 8-bit encoding of the font in use (such encodings are codified in the LaTeX scheme with names like OT1, T2A, TS1, OML, LY1, etc). The present package offers a collection of conversions of existing patterns to UTF-8 format, together with converters for use with 8-bit fonts in older systems.

This Guix-specific package provides hyphenation patterns for all languages supported in TeX Live. It is a strict super-set of codehyphen-base package and should be preferred to it whenever a package would otherwise depend on hyph-utf8.

Modern native UTF-8 engines such as XeTeX and LuaTeX need hyphenation patterns in UTF-8 format, whereas older systems require hyphenation patterns in the 8-bit encoding of the font in use (such encodings are codified in the LaTeX scheme with names like OT1, T2A, TS1, OML, LY1, etc). The present package offers a collection of conversions of existing patterns to UTF-8 format, together with converters for use with 8-bit fonts in older systems.

This Guix-specific package provides hyphenation patterns for all languages supported in TeX Live. It is a strict super-set of codehyphen-base package and should be preferred to it whenever a package would otherwise depend on hyph-utf8.

Modern native UTF-8 engines such as XeTeX and LuaTeX need hyphenation patterns in UTF-8 format, whereas older systems require hyphenation patterns in the 8-bit encoding of the font in use (such encodings are codified in the LaTeX scheme with names like OT1, T2A, TS1, OML, LY1, etc). The present package offers a collection of conversions of existing patterns to UTF-8 format, together with converters for use with 8-bit fonts in older systems.

This Guix-specific package provides hyphenation patterns for all languages supported in TeX Live. It is a strict super-set of codehyphen-base package and should be preferred to it whenever a package would otherwise depend on hyph-utf8.

Modern native UTF-8 engines such as XeTeX and LuaTeX need hyphenation patterns in UTF-8 format, whereas older systems require hyphenation patterns in the 8-bit encoding of the font in use (such encodings are codified in the LaTeX scheme with names like OT1, T2A, TS1, OML, LY1, etc). The present package offers a collection of conversions of existing patterns to UTF-8 format, together with converters for use with 8-bit fonts in older systems.

This Guix-specific package provides hyphenation patterns for all languages supported in TeX Live. It is a strict super-set of codehyphen-base package and should be preferred to it whenever a package would otherwise depend on hyph-utf8.

Modern native UTF-8 engines such as XeTeX and LuaTeX need hyphenation patterns in UTF-8 format, whereas older systems require hyphenation patterns in the 8-bit encoding of the font in use (such encodings are codified in the LaTeX scheme with names like OT1, T2A, TS1, OML, LY1, etc). The present package offers a collection of conversions of existing patterns to UTF-8 format, together with converters for use with 8-bit fonts in older systems.

This Guix-specific package provides hyphenation patterns for all languages supported in TeX Live. It is a strict super-set of codehyphen-base package and should be preferred to it whenever a package would otherwise depend on hyph-utf8.

Modern native UTF-8 engines such as XeTeX and LuaTeX need hyphenation patterns in UTF-8 format, whereas older systems require hyphenation patterns in the 8-bit encoding of the font in use (such encodings are codified in the LaTeX scheme with names like OT1, T2A, TS1, OML, LY1, etc). The present package offers a collection of conversions of existing patterns to UTF-8 format, together with converters for use with 8-bit fonts in older systems.

This Guix-specific package provides hyphenation patterns for all languages supported in TeX Live. It is a strict super-set of codehyphen-base package and should be preferred to it whenever a package would otherwise depend on hyph-utf8.

This bundle provides four BibLaTeX styles that implement (many of) the stipulations and examples provided by the 2014 New Hart's Rules and the 2002 Oxford Guide to Style:

• oxnotes is a style similar to the standard verbose, intended for use with footnotes;

• oxnum is a style similar to the standard numeric, intended for use with numeric in-text citations;

• oxalph is a style similar to the standard alphabetic, intended for use with alphabetic in-text citations;

• oxyear is a style similar to the standard author-year, intended for use with parenthetical in-text citations.

The bundle provides support for a wide variety of content types, including manuscripts, audiovisual resources, social media and legal references.

The l3experimental packages are a collection of experimental implementations for aspects of the LaTeX3 kernel, dealing with higher-level ideas such as the Designer Interface. Some of them work as stand alone packages, providing new functionality, and can be used on top of LaTeX2e with no changes to the existing kernel. The present release includes:

• l3benchmark for measuring the time taken by TeX to run certain code;

• l3draw a code-level interface for constructing drawings;

• l3graphics an interface for the inclusion of graphics files;

• l3opacity support for opacity in PDF output;

• l3str support for string manipulation;

• l3bitset support for bit vectors;

• l3sys-shell which provides abstractions for common shell functions like file deletion and copying;

• xcoffins which allows the alignment of boxes using a series of handle positions, supplementing the simple TeX reference point;

• xgalley which controls boxes receiving text for typesetting.