Commit d3378c30 by Florian Goth

Update README.md with arxiv identifier.

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## General information ##
This version of the **A**lgorithms for **L**attice **F**ermions package provides a general code for the finite temperature auxiliary field Quantum Monte Carlo algorithm. The code is engineered to be able simulate any model that can be written in terms of sums of single body operators, of squares of single body operators and single body operators coupled to an Ising field with given dynamics. We provide predefined types that allow the user to specify the model, the Bravais lattice as well as equal time and time displaced observables. The code supports an MPI implementation. Examples such as the Hubbard model on the Honeycomb lattice as well as the Hubbard model on the square lattice coupled to a transverse Ising field are provided and discussed in the [documentation](https://alf.physik.uni-wuerzburg.de/ALF/ALF/raw/master/Documentation/ALF_v1.0.pdf). [For questions and issues you can reach us at alf@physik.uni-wuerzburg.de](mailto:alf@physik.uni-wuerzburg.de).
This version of the **A**lgorithms for **L**attice **F**ermions package provides a general code for the finite temperature auxiliary field Quantum Monte Carlo algorithm. The code is engineered to be able simulate any model that can be written in terms of sums of single body operators, of squares of single body operators and single body operators coupled to an Ising field with given dynamics. We provide predefined types that allow the user to specify the model, the Bravais lattice as well as equal time and time displaced observables. The code supports an MPI implementation. Examples such as the Hubbard model on the Honeycomb lattice as well as the Hubbard model on the square lattice coupled to a transverse Ising field are provided and discussed in the [documentation](https://alf.physik.uni-wuerzburg.de/ALF/ALF/raw/master/Documentation/ALF_v1.0.pdf). For questions and issues you can reach us at [alf@physik.uni-wuerzburg.de](mailto:alf@physik.uni-wuerzburg.de).
You can [Download ALF-v1.0.zip](https://alf.physik.uni-wuerzburg.de/ALF/ALF/repository/archive.zip?ref=master) or sign up to help us improve the package, create issues etc.
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## CITATION ##
If you use the ALF package, please mention the following in the acknowledments. The auxillary field QMC simulations were carried out with the ALF package available at https://alf.physik.uni-wuerzburg.de
The documentation is available on the arxiv at [arXiv:1704.00131 [cond-mat.str-el]][https://arxiv.org/abs/1704.00131]
If you use the ALF package, please mention the following in the acknowledments:
The auxillary field QMC simulations were carried out with the ALF package available at https://alf.physik.uni-wuerzburg.de .
## LICENSE ##
The various works that make up the ALF project are placed under licenses that put
......@@ -67,7 +70,7 @@ a strong emphasis on the attribution of the original authors and the sharing of
To that end we have placed the ALF source code under the GPL version 3 license (see license.GPL and license.additional)
and took the liberty as per GPLv3 section 7 to include additional terms that deal with the attribution
of the original authors(see license.additional).
The Documentation of the ALF project by the ALF contributors is licensed under a Creative Commons Attribution-ShareAlike 4.0 International License (see Documentation/license.CCBYSA)
The documentation of the ALF project by the ALF contributors is licensed under a Creative Commons Attribution-ShareAlike 4.0 International License (see Documentation/license.CCBYSA)
We mention that we link against parts of lapack which licensed under a BSD license(see license.BSD).
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