Hugging Face's logo

Spaces:
garywelz
/
copernicusai
Running

App Files Community
copernicusai / physics-processes-database /processes /electromagnetism /electromagnetism-quantum-computing.json
garywelz's picture
garywelz
Rebuild process-specific source-grounded flowcharts
c8abfc6
raw
history blame contribute delete
6.2 kB
{
 "acquired_date": "2026-01-08T00:00:00Z",
 "category": "physics",
 "colorScheme": {
 "red": {
 "hex": "#ff6b6b",
 "category": "Triggers & Inputs"
 },
 "yellow": {
 "hex": "#ffd43b",
 "category": "Structures & Objects"
 },
 "green": {
 "hex": "#51cf66",
 "category": "Processing & Operations"
 },
 "blue": {
 "hex": "#74c0fc",
 "category": "Intermediates & States"
 },
 "violet": {
 "hex": "#b197fc",
 "category": "Products & Outputs"
 }
 },
 "complexity": {
 "nodes": 9,
 "edges": 9,
 "conditionals": 1,
 "logicGates": {
 "orGates": 1,
 "andGates": 1,
 "notGates": 0,
 "total": 2
 },
 "level": "medium",
 "detailLevel": "source_grounded_rebuild",
 "loops": 1
 },
 "created": "2026-01-08",
 "description": "Quantum Computing Process. This quantum mechanics process visualization demonstrates quantum computing algorithms and qubit operations. The flowchart shows algorithm inputs and qubit initialization, quantum computing methods and gate operations, quantum computing operations and measurement, intermediate results, and final quantum computing outputs.",
 "id": "electromagnetism-quantum-computing",
 "keywords": [
 "electromagnetism",
 "quantum",
 "computing"
 ],
 "lastUpdated": "2026-04-30",
 "mermaid": "graph TD\n N1[\"Quantum Computing research...\"]\n N2[\"Qubit register\"]\n N3[\"Initial state and circuit\"]\n N4[\"Apply unitary gates\"]\n N5[\"Entangle/interfere amplitudes\"]\n N6[\"Error/decoherence correction\"]\n N7[\"Measurement bitstrings\"]\n N8{\"Source-grounded check: Quantum...\"}\n N9[\"Quantum Computing...\"]\n\n N1 --> N2\n N2 --> N3\n N3 --> N4\n N4 --> N5\n N5 --> N6\n N6 --> N7\n N7 --> N8\n N8 -->|yes| N9\n N7 -->|refine model| N4\n\n style N1 fill:#ff6b6b,color:#fff\n style N2 fill:#ff6b6b,color:#fff\n style N3 fill:#ffd43b,color:#000\n style N4 fill:#51cf66,color:#fff\n style N5 fill:#74c0fc,color:#fff\n style N6 fill:#51cf66,color:#fff\n style N7 fill:#b197fc,color:#fff\n style N8 fill:#ffd43b,color:#000\n style N9 fill:#b197fc,color:#fff",
 "name": "Quantum Computing",
 "notes": "Corrective rebuild: replaces the generic scaffold with a process-specific step structure and records topology for duplicate detection.",
 "relatedProcesses": [],
 "related_papers": [
 "pubmed_20203009",
 "crossref_10_1103_PhysRevLett_74_4091",
 "crossref_10_1038_nphys3984"
 ],
 "related_podcasts": [],
 "related_processes": [],
 "related_videos": [],
 "source": "programming_framework",
 "sources": [
 {
 "authors": "Ladd TD, Jelezko F, Laflamme R, Nakamura Y, Monroe C, O'Brien JL.",
 "doi": "10.1038/nature08812",
 "journal": "Nature",
 "paper_id": "pubmed_20203009",
 "pubmed": "20203009",
 "title": "Quantum computers",
 "url": "https://pubmed.ncbi.nlm.nih.gov/20203009",
 "year": "2010"
 },
 {
 "authors": "Cirac JI, Zoller P.",
 "doi": "10.1103/PhysRevLett.74.4091",
 "journal": "Phys Rev Lett",
 "paper_id": "crossref_10_1103_PhysRevLett_74_4091",
 "pubmed": null,
 "title": "Quantum Computations with Cold Trapped Ions",
 "url": "https://doi.org/10.1103/PhysRevLett.74.4091",
 "year": "1995"
 },
 {
 "authors": "Gambetta JM, Chow JM, Steffen M.",
 "doi": "10.1038/nphys3984",
 "journal": "Nat Phys",
 "paper_id": "crossref_10_1038_nphys3984",
 "pubmed": null,
 "title": "Building logical qubits in a quantum computing system",
 "url": "https://doi.org/10.1038/nphys3984",
 "year": "2017"
 }
 ],
 "subcategories": [
 "electromagnetism"
 ],
 "subcategory": "electromagnetism",
 "subcategory_name": "Electromagnetism",
 "verified": false,
 "nodeDetails": [
 {
 "id": "N1",
 "label": "Quantum Computing research...",
 "detail": "Quantum Computing research question",
 "type": "process",
 "role": "Triggers & Inputs"
 },
 {
 "id": "N2",
 "label": "Qubit register",
 "detail": "Qubit register",
 "type": "process",
 "role": "Triggers & Inputs"
 },
 {
 "id": "N3",
 "label": "Initial state and circuit",
 "detail": "Initial state and circuit",
 "type": "process",
 "role": "Structures & Objects"
 },
 {
 "id": "N4",
 "label": "Apply unitary gates",
 "detail": "Apply unitary gates",
 "type": "process",
 "role": "Processing & Operations"
 },
 {
 "id": "N5",
 "label": "Entangle/interfere amplitudes",
 "detail": "Entangle/interfere amplitudes",
 "type": "process",
 "role": "Intermediates & States"
 },
 {
 "id": "N6",
 "label": "Error/decoherence correction",
 "detail": "Error/decoherence correction",
 "type": "process",
 "role": "Processing & Operations"
 },
 {
 "id": "N7",
 "label": "Measurement bitstrings",
 "detail": "Measurement bitstrings",
 "type": "process",
 "role": "Products & Outputs"
 },
 {
 "id": "N8",
 "label": "Source-grounded check: Quantum...",
 "detail": "Source-grounded check: Quantum computers",
 "type": "decision",
 "role": "Structures & Objects"
 },
 {
 "id": "N9",
 "label": "Quantum Computing...",
 "detail": "Quantum Computing prediction/readout",
 "type": "process",
 "role": "Products & Outputs"
 }
 ],
 "flowchartStandard": {
 "name": "source_grounded_rebuild_v1",
 "applied": "2026-04-30",
 "curationStatus": "source_grounded_draft",
 "basis": "physics_exact_template",
 "topologySignature": "9617a176a0063d47",
 "sourceGrounding": "Graph steps are derived from the process title, existing source metadata, and curated process/subfield templates; citations support the process topic and should be reviewed for node-level claims before marking verified."
 },
 "namedCollections": [],
 "graphMetrics": {
 "nodes": 9,
 "edges": 9,
 "conditionals": 1,
 "andGates": 1,
 "orGates": 1,
 "notGates": 0,
 "loops": 1
 }
}