MediaWiki API result
This is the HTML representation of the JSON format. HTML is good for debugging, but is unsuitable for application use.
Specify the format parameter to change the output format. To see the non-HTML representation of the JSON format, set format=json.
See the complete documentation, or the API help for more information.
{
"batchcomplete": "",
"continue": {
"lecontinue": "20230828135116|697",
"continue": "-||"
},
"query": {
"logevents": [
{
"logid": 707,
"ns": 6,
"title": "File:Magnon laser.txt",
"pageid": 81,
"logpage": 81,
"revid": 746,
"params": {},
"type": "create",
"action": "create",
"user": "Jalil",
"timestamp": "2023-11-06T21:00:08Z",
"comment": "Introduction to the Magnon-Laser project"
},
{
"logid": 706,
"ns": 6,
"title": "File:Magnon laser.txt",
"pageid": 81,
"logpage": 81,
"revid": 746,
"params": {
"img_sha1": "kdcyfsb4h61f9xy2f3b844fhwk00vdn",
"img_timestamp": "2023-11-06T21:00:08Z"
},
"type": "upload",
"action": "upload",
"user": "Jalil",
"timestamp": "2023-11-06T21:00:08Z",
"comment": "Introduction to the Magnon-Laser project"
},
{
"logid": 705,
"ns": 6,
"title": "File:Skyrmion simulation 2.txt",
"pageid": 80,
"logpage": 80,
"revid": 745,
"params": {},
"type": "create",
"action": "create",
"user": "Jalil",
"timestamp": "2023-11-06T20:58:35Z",
"comment": "More about Skyrmion simulations and collisions"
},
{
"logid": 704,
"ns": 6,
"title": "File:Skyrmion simulation 2.txt",
"pageid": 80,
"logpage": 80,
"revid": 745,
"params": {
"img_sha1": "0oilk4txkyulhgqwelftanuamab2i1f",
"img_timestamp": "2023-11-06T20:58:35Z"
},
"type": "upload",
"action": "upload",
"user": "Jalil",
"timestamp": "2023-11-06T20:58:35Z",
"comment": "More about Skyrmion simulations and collisions"
},
{
"logid": 703,
"ns": 6,
"title": "File:1D LLG Code.zip",
"pageid": 79,
"logpage": 79,
"revid": 721,
"params": {},
"type": "create",
"action": "create",
"user": "Jalil",
"timestamp": "2023-08-28T14:16:15Z",
"comment": "## What is covered in this notebook\n\n* Numerical solution to LLG equations using verlet algorithm\n* Comparison to analytical solution for a single spin under applied magnetic field"
},
{
"logid": 702,
"ns": 6,
"title": "File:1D LLG Code.zip",
"pageid": 79,
"logpage": 79,
"revid": 721,
"params": {
"img_sha1": "ggphcf34cim5tvbwvuegqt47p6tn0lx",
"img_timestamp": "2023-08-28T14:16:15Z"
},
"type": "upload",
"action": "upload",
"user": "Jalil",
"timestamp": "2023-08-28T14:16:15Z",
"comment": "## What is covered in this notebook\n\n* Numerical solution to LLG equations using verlet algorithm\n* Comparison to analytical solution for a single spin under applied magnetic field"
},
{
"logid": 701,
"ns": 6,
"title": "File:Introduction to LLG equations.txt",
"pageid": 78,
"logpage": 78,
"revid": 719,
"params": {},
"type": "create",
"action": "create",
"user": "Jalil",
"timestamp": "2023-08-28T14:09:25Z",
"comment": "## What is covered in this notebook\n\n* Introduction to LLG equations:\n * Main contribution to the energy .\n * Dynamics of LLG equations (damping and driving terms).\n * Analytical solution for a single magnetic moment under a magnetic field."
},
{
"logid": 700,
"ns": 6,
"title": "File:Introduction to LLG equations.txt",
"pageid": 78,
"logpage": 78,
"revid": 719,
"params": {
"img_sha1": "54j702y96pzsk4oo03t794b2f5wigm9",
"img_timestamp": "2023-08-28T14:09:25Z"
},
"type": "upload",
"action": "upload",
"user": "Jalil",
"timestamp": "2023-08-28T14:09:25Z",
"comment": "## What is covered in this notebook\n\n* Introduction to LLG equations:\n * Main contribution to the energy .\n * Dynamics of LLG equations (damping and driving terms).\n * Analytical solution for a single magnetic moment under a magnetic field."
},
{
"logid": 699,
"ns": 6,
"title": "File:Coupled nonlinear oscillators.txt",
"pageid": 77,
"logpage": 77,
"revid": 716,
"params": {},
"type": "create",
"action": "create",
"user": "Jalil",
"timestamp": "2023-08-28T14:01:22Z",
"comment": "## What is covered in this notebook\n\n* Introduction The Fermi-Pasta-Ulam (FPU) model :\n * Review of verlet algorithm.\n * Application of verlet algorithm to n nonlinear differential equations.\n* Analysis of solutions:\n * Relative amplitude of solutions and concept of normal modes.\n * How to make a Fourier transform and analysis of spectrum.\n * Effects of nonlinearities in the differential equation (Ergodicity).\n * Animation of solution."
},
{
"logid": 698,
"ns": 6,
"title": "File:Coupled nonlinear oscillators.txt",
"pageid": 77,
"logpage": 77,
"revid": 716,
"params": {
"img_sha1": "t5sero3lva7s53bbai3p9ilxz20jml9",
"img_timestamp": "2023-08-28T14:01:22Z"
},
"type": "upload",
"action": "upload",
"user": "Jalil",
"timestamp": "2023-08-28T14:01:22Z",
"comment": "## What is covered in this notebook\n\n* Introduction The Fermi-Pasta-Ulam (FPU) model :\n * Review of verlet algorithm.\n * Application of verlet algorithm to n nonlinear differential equations.\n* Analysis of solutions:\n * Relative amplitude of solutions and concept of normal modes.\n * How to make a Fourier transform and analysis of spectrum.\n * Effects of nonlinearities in the differential equation (Ergodicity).\n * Animation of solution."
}
]
}
}