p4vasp, usage
By student
p4vasp, usage
1:34
p4vasp, install
By student
p4vasp, install
0:23
cluster calculation, f06zp setting by using of GB or FD (DVXalpha calculation)
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cluster calculation, f06zp setting by using of GB or FD (DVXalpha calculation)
1:48
cluster calculation, Part 1 (calculate energy of optimized structure)
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cluster calculation, Part 1 (calculate energy of optimized structure)
1:47
cluster calculation, Part 5 (Plot PDOS)
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cluster calculation, Part 5 (Plot PDOS)
2:45
cluster calculation, Part 6 (Plot Energy Level Diagram)
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cluster calculation, Part 6 (Plot Energy Level Diagram)
3:16
gaussian brodening setting (igor macro)
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gaussian brodening setting (igor macro)
2:05
cluster calculation, Part 3 (displat, making f01)
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cluster calculation, Part 3 (displat, making f01)
5:17
cluster calculation, Part 2 (VESTA, converting CONTCAR (VASP), xsf (PWscf) or cif to xyz)
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cluster calculation, Part 2 (VESTA, converting CONTCAR (VASP), xsf (PWscf) or cif to xyz)
2:09
JEM-2100, part14
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JEM-2100, part14
38:16
JEM-2100, part13
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JEM-2100, part13
30:44
JEM-2100, part16
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JEM-2100, part16
29:51
JEM-2100, part1
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JEM-2100, part1
18:35
JEM-2100, part0
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JEM-2100, part0
14:20
JEM-2100, part15
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JEM-2100, part15
15:03
JEM-2100, part17
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JEM-2100, part17
13:58
JEM-2100, part10
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JEM-2100, part10
11:51
JEM-2100, part3
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JEM-2100, part3
12:31
JEM-2100, part8
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JEM-2100, part8
9:53
JEM-2100, part11
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JEM-2100, part11
7:12
JEM-2100, part19
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JEM-2100, part19
6:48
JEM-2100, part21
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JEM-2100, part21
5:04
JEM-2100, part18
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JEM-2100, part18
4:48
JEM-2100, part12
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JEM-2100, part12
3:26
JEM-2100, part2
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JEM-2100, part2
3:21
JEM-2100, part9
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JEM-2100, part9
2:36
JEM-2100, part20
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JEM-2100, part20
1:46
JEM-2100, part4
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JEM-2100, part4
2:45
JEM-2100, part22
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JEM-2100, part22
0:51
JEM-2100, part7
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JEM-2100, part7
1:08
JEM-2100, part6
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JEM-2100, part6
1:51
JEM-2100, part5
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JEM-2100, part5
1:20
SEM (SU6600)-EDX(INCA), part5
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SEM (SU6600)-EDX(INCA), part5
9:28
SEM (SU6600)-EDX(INCA), part4
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SEM (SU6600)-EDX(INCA), part4
6:16
SEM (SU6600)-EDX(INCA), part6
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SEM (SU6600)-EDX(INCA), part6
4:41
SEM (SU6600)-EDX(INCA), part2
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SEM (SU6600)-EDX(INCA), part2
33:55
SEM (SU6600)-EDX(INCA), part1
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SEM (SU6600)-EDX(INCA), part1
23:55
SEM (SU6600)-EDX(INCA), part3
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SEM (SU6600)-EDX(INCA), part3
9:58
EPMA (JXA-8230), part 4 (qualitative analysis-1)
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EPMA (JXA-8230), part 4 (qualitative analysis-1)
46:35
EPMA (JXA-8230), part 3 (sample change)
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EPMA (JXA-8230), part 3 (sample change)
39:38
EPMA (JXA-8230), part 7 (end of procedure)
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EPMA (JXA-8230), part 7 (end of procedure)
18:12
EPMA (JXA-8230), part 1 (start up)
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EPMA (JXA-8230), part 1 (start up)
14:38
EPMA (JXA-8230), part 6 (quantitative analysis)
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EPMA (JXA-8230), part 6 (quantitative analysis)
20:44
EPMA (JXA-8230), part 8 (End, shut down PC)
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EPMA (JXA-8230), part 8 (End, shut down PC)
0:31
EPMA (JXA-8230), part 2 (sample setting)
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EPMA (JXA-8230), part 2 (sample setting)
8:57
EPMA (JXA-8230), part 5 (qualitative analysis-2)
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EPMA (JXA-8230), part 5 (qualitative analysis-2)
1:41
vasp_phonopy_run (thermal displacements)
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vasp_phonopy_run (thermal displacements)
4:12
PHI5600 (XPS=ESCA), analysis (Multipak)
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PHI5600 (XPS=ESCA), analysis (Multipak)
30:33
vasp_phono3py_run (change parameter)
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vasp_phono3py_run (change parameter)
3:59
PHI5600 (XPS and UPS), UPS measurement, appendix 1
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PHI5600 (XPS and UPS), UPS measurement, appendix 1
10:24
PHI5600 (XPS and UPS), UPS measurement, appendix 2
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PHI5600 (XPS and UPS), UPS measurement, appendix 2
3:39
PHI5600 (XPS and UPS), UPS measurement, part1
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PHI5600 (XPS and UPS), UPS measurement, part1
11:16
PHI5600 (XPS and UPS), UPS measurement, part2
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PHI5600 (XPS and UPS), UPS measurement, part2
4:34
PHI5600 (XPS and UPS), UPS measurement, part3
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PHI5600 (XPS and UPS), UPS measurement, part3
2:12
PHI5600(XPS=ESCA), after baking and align camera position ,part 3
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PHI5600(XPS=ESCA), after baking and align camera position ,part 3
8:19
PHI5600(XPS=ESCA), after baking and align camera position ,part 2
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PHI5600(XPS=ESCA), after baking and align camera position ,part 2
1:10
PHI5600(XPS=ESCA), after baking and align camera position ,part 1
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PHI5600(XPS=ESCA), after baking and align camera position ,part 1
13:55
cluster calculation, Part 4 (DVXalpha calculation)
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cluster calculation, Part 4 (DVXalpha calculation)
6:58
wine install
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wine install
2:04
PHI5600 (XPS = ESCA), No.14 sample transfer
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PHI5600 (XPS = ESCA), No.14 sample transfer
4:39
PHI5600 (XPS = ESCA), No.13 turn off conventional X-ray
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PHI5600 (XPS = ESCA), No.13 turn off conventional X-ray
0:42
PHI5600 (XPS = ESCA), No.11 valence band measurement
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PHI5600 (XPS = ESCA), No.11 valence band measurement
19:37
PHI5600 (XPS = ESCA), No.10 narrow scan
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PHI5600 (XPS = ESCA), No.10 narrow scan
14:30
PHI5600 (XPS = ESCA), No.9 search good position
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PHI5600 (XPS = ESCA), No.9 search good position
14:26
PHI5600 (XPS = ESCA), No.12 turn off conventional X-ray
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PHI5600 (XPS = ESCA), No.12 turn off conventional X-ray
5:01
PHI5600 (XPS = ESCA), No.8 Ar sputter to get clean surface
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PHI5600 (XPS = ESCA), No.8 Ar sputter to get clean surface
9:05
PHI5600 (XPS = ESCA), No.7 test measurement (wide range scan)
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PHI5600 (XPS = ESCA), No.7 test measurement (wide range scan)
17:17
PHI5600 (XPS = ESCA), No.6 turn on conventional X-ray
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PHI5600 (XPS = ESCA), No.6 turn on conventional X-ray
10:16
PHI5600 (XPS = ESCA), No.5 setting sample position
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PHI5600 (XPS = ESCA), No.5 setting sample position
10:21
PHI5600 (XPS = ESCA), No.3 evacuate load-lock chamber
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PHI5600 (XPS = ESCA), No.3 evacuate load-lock chamber
12:30
PHI5600 (XPS = ESCA), No.0 outline
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PHI5600 (XPS = ESCA), No.0 outline
17:07
PHI5600 (XPS = ESCA), No.4 sample transfer
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PHI5600 (XPS = ESCA), No.4 sample transfer
9:16
PHI5600 (XPS = ESCA), No.2 sample holder
By student
PHI5600 (XPS = ESCA), No.2 sample holder
9:31
PHI5600 (XPS = ESCA), No.1 purge load-lock chamber
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PHI5600 (XPS = ESCA), No.1 purge load-lock chamber
8:09
vasp_autoset_run_boltztrap_phonopy
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vasp_autoset_run_boltztrap_phonopy
7:06
vasp_autoset_run_boltztrap_phonopy (results)
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vasp_autoset_run_boltztrap_phonopy (results)
1:13
vasp_autoset_run_boltztrap
By student
vasp_autoset_run_boltztrap
3:53
vasp_autoset_run
By student
vasp_autoset_run
5:56
vasp_boltztrap
By student
vasp_boltztrap
4:48
How to get Cp (specific heat capacity) from DSC data
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How to get Cp (specific heat capacity) from DSC data
4:43
vasp_phonopy_qha_run ( use user setting kpoints)
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vasp_phonopy_qha_run ( use user setting kpoints)
1:39
vasp_phonopy_qha_run
By student
vasp_phonopy_qha_run
3:56
making band.conf(phonopy) from xcrysden (WIEN2k)
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making band.conf(phonopy) from xcrysden (WIEN2k)
3:22
aflow (automatically making kpoints for band dispersion)
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aflow (automatically making kpoints for band dispersion)
1:38
vasp_phono3py_run
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vasp_phono3py_run
3:14
vasp_phonopy_run
By student
vasp_phonopy_run
11:00
vasp.5.4.1 (vasp.5.4.1.24Jun15.tar.gz, compile gfortran)
By student
vasp.5.4.1 (vasp.5.4.1.24Jun15.tar.gz, compile gfortran)
6:34
Si root(2)xroot(2)x1 super structrure
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Si root(2)xroot(2)x1 super structrure
3:16
VASP compilation (intel compiler and OpenMPI)
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VASP compilation (intel compiler and OpenMPI)
7:43
vasp_run (simple version)
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vasp_run (simple version)
5:21
vasp_run
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vasp_run
6:01
BoltzTraP install for VASP
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BoltzTraP install for VASP
9:52
PWscf (Quasi harmonic approximation caclulation, ver. 2)
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PWscf (Quasi harmonic approximation caclulation, ver. 2)
2:26
PWscf (Quasi harmonic approximation caclulation, stand alone)
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PWscf (Quasi harmonic approximation caclulation, stand alone)
3:40
PWscf (IR and Raman calculation)
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PWscf (IR and Raman calculation)
14:26
PWscf (phonon calculation, DFPT method, OpenMPI parallel calculation and change plot condition)
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PWscf (phonon calculation, DFPT method, OpenMPI parallel calculation and change plot condition)
19:17
vasp (recompile for dfpt calculation)
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vasp (recompile for dfpt calculation)
2:50
vasp2boltz (BoltzTraP)
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vasp2boltz (BoltzTraP)
12:01
VASP DFPT calculation (with phonopy)
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VASP DFPT calculation (with phonopy)
9:06