\Delta\tau resolved and extrapolated data

This zip archive contains the DQMC data sets for the \beta=1/T resolved double
occupancy, internal energy per site, antiferromagnetic structure factor and
charge density wave structure factor obtained with the ALF Code.
The computations have been carried out on a square lattice at half filling for
the Hubbard model, the U-V model and the long-range Coulomb(LRC)-Hubbard model.
Every model is computed at fixed U/t=1.9. The naming convention of the csv-files is the following:
V0.0 = Hubbard model
V0.x = U-V model with V/t=0.x
Vcx.x = LRC-Hubbard model with V_C/t=x.x

- dat_docc_{\Delta\tau}V{x}.csv = double occupancy at \Delta\tau={0.05, 0.1, 0.2}
- dat_docc{\Delta\tau}_V{x}_err.csv = corresponding statistical error
- dat_energy_0.1_V{x}.csv = internal energy at \Delta\tau=0.1
- dat_energy_0.1_V{x}_err.csv = corresponding statistical error
- dat_saf_0.1_V{x}.csv = antiferromagnetic structure factor at \Delta\tau=0.1
- dat_saf_0.1_V{x}_err.csv = corresponding statistical error
- dat_scdw_0.1_V{x}.csv = charge density wave structure factor at \Delta\tau=0.1
- dat_scdw_0.1_V{x}_err.csv = corresponding statistical error The structure of each file is to be read column-wise:
\beta, L=8, L=10, L=12, L=16, L=18, L=20

This zip archive contains the DQMC data sets for the \beta resolved double
occupancy and internal energy (per site) obtained with the ALF Code.
The computations have been carried out on a square lattice at half filling for
the Hubbard model, the U-V model and the long-range Coulomb(LRC)-Hubbard model.
Every model is computed at fixed U/t=1.9. The naming convention of the csv-files is the following:
V0.0 = Hubbard model
V0.3 = U-V model with V/t=0.3
Vc = LRC-Hubbard model with V_C/t=0.3

- dat_docc_{\Delta\tau}V{x}.csv = double occupancy at \Delta\tau={0.05, 0.1, 0.2}
- dat_docc{\Delta\tau}_V{x}_err.csv = corresponding statistical error
- dat_docc_V{x}.csv = \Delta\tau -> 0 extrapolated double occupancy
- dat_docc_V{x}_err.csv = corresponding extrapolation error
- dat_energy_0.1_V{x}.csv = internal energy at fixed \Delta\tau=0.1
- dat_energy_0.1_V{x}_err.csv = corresponding statistical error The structure of each file is to be read column-wise:
\beta, L=8, L=10, L=12, L=16, L=18, L=20

This zip archive contains the DQMC data sets for the \beta resolved double
occupancy and internal energy (per site) obtained with the ALF Code.
The computations have been carried out on a square lattice at half filling for
the Hubbard model, the U-V model and the long-range Coulomb(LRC)-Hubbard model.
Every model is computed at fixed U/t=1.9. The naming convention of the csv-files is the following:
V0.0 = Hubbard model
V0.3 = U-V model with V/t=0.3
Vc = LRC-Hubbard model with V_C/t=0.3

- dat_docc_{\Delta\tau}V{x}.csv = double occupancy at \Delta\tau={0.05, 0.1, 0.2}
- dat_docc{\Delta\tau}_V{x}_err.csv = corresponding statistical error
- dat_docc_V{x}.csv = \Delta\tau -> 0 extrapolated double occupancy
- dat_docc_V{x}_err.csv = corresponding extrapolation error
- dat_energy_0.1_V{x}.csv = internal energy at fixed \Delta\tau=0.1
- dat_energy_0.1_V{x}_err.csv = corresponding statistical error The structure of each file is to be read column-wise:
\beta, L=8, L=10, L=12, L=16, L=18, L=20

This zip archive contains the DQMC data sets for the \beta resolved double
occupancy and internal energy (per site) obtained with the ALF Code.
The computations have been carried out on a square lattice at half filling for
the Hubbard model, the U-V model and the long-range Coulomb(LRC)-Hubbard model.
Every model is computed at fixed U/t=1.9. The naming convention of the csv-files is the following:
V0.0 = Hubbard model
V0.3 = U-V model with V/t=0.3
Vc = LRC-Hubbard model with V_C/t=0.3

- dat_docc_{\Delta\tau}V{x}.csv = double occupancy at \Delta\tau={0.05, 0.1, 0.2}
- dat_docc{\Delta\tau}_V{x}_err.csv = corresponding statistical error
- dat_docc_V{x}.csv = \Delta\tau -> 0 extrapolated double occupancy
- dat_docc_V{x}_err.csv = corresponding extrapolation error
- dat_energy_0.1_V{x}.csv = internal energy at fixed \Delta\tau=0.1
- dat_energy_0.1_V{x}_err.csv = corresponding statistical error The structure of each file is to be read column-wise:
\beta, L=8, L=10, L=12, L=16, L=18, L=20

This zip archive contains the DQMC data sets for the \beta=1/T resolved double
occupancy, internal energy per site, antiferromagnetic structure factor and
charge density wave structure factor obtained with the ALF Code.
The computations have been carried out on a square lattice at half filling for
the Hubbard model, the U-V model and the long-range Coulomb(LRC)-Hubbard model.
Every model is computed at fixed U/t=1.9. The naming convention of the csv-files is the following:
V0.0 = Hubbard model
V0.x = U-V model with V/t=0.x
Vcx.x = LRC-Hubbard model with V_C/t=x.x

- dat_docc_{\Delta\tau}V{x}.csv = double occupancy at \Delta\tau={0.05, 0.1, 0.2}
- dat_docc{\Delta\tau}_V{x}_err.csv = corresponding statistical error
- dat_energy_0.1_V{x}.csv = internal energy at \Delta\tau=0.1
- dat_energy_0.1_V{x}_err.csv = corresponding statistical error
- dat_saf_0.1_V{x}.csv = antiferromagnetic structure factor at \Delta\tau=0.1
- dat_saf_0.1_V{x}_err.csv = corresponding statistical error
- dat_scdw_0.1_V{x}.csv = charge density wave structure factor at \Delta\tau=0.1
- dat_scdw_0.1_V{x}_err.csv = corresponding statistical error The structure of each file is to be read column-wise:
\beta, L=8, L=10, L=12, L=16, L=18, L=20

This zip archive contains the DQMC data sets for the \beta=1/T resolved double
occupancy, internal energy per site, antiferromagnetic structure factor and
charge density wave structure factor obtained with the ALF Code.
The computations have been carried out on a square lattice at half filling for
the Hubbard model, the U-V model and the long-range Coulomb(LRC)-Hubbard model.
Every model is computed at fixed U/t=1.9. The naming convention of the csv-files is the following:
V0.0 = Hubbard model
V0.x = U-V model with V/t=0.x
Vcx.x = LRC-Hubbard model with V_C/t=x.x

- dat_docc_{\Delta\tau}V{x}.csv = double occupancy at \Delta\tau={0.05, 0.1, 0.2}
- dat_docc{\Delta\tau}_V{x}_err.csv = corresponding statistical error
- dat_energy_0.1_V{x}.csv = internal energy at \Delta\tau=0.1
- dat_energy_0.1_V{x}_err.csv = corresponding statistical error
- dat_saf_0.1_V{x}.csv = antiferromagnetic structure factor at \Delta\tau=0.1
- dat_saf_0.1_V{x}_err.csv = corresponding statistical error
- dat_scdw_0.1_V{x}.csv = charge density wave structure factor at \Delta\tau=0.1
- dat_scdw_0.1_V{x}_err.csv = corresponding statistical error The structure of each file is to be read column-wise:
\beta, L=8, L=10, L=12, L=16, L=18, L=20