Latest revision as of 11:26, 19 May 2026

ScholarlyWiki is a structured platform for scientific knowledge, research notes, and educational collections. It combines encyclopedia-style articles with organized book systems and curated topic indexes. The site is designed for readable explanations, source-based writing, and long-term knowledge building.

Researchers, students, teachers, and independent authors can use it to develop scientific material. Articles can include references, images, formulas, diagrams, categories, and internal cross-links. Book collections make it possible to organize large subjects into chapters, sections, and galleries.

The Quantum Collection is the first major example of this structured book-based approach. It connects foundations, methods, matter, applications, and data analysis in one navigable system. ScholarlyWiki also serves as a staging area where pages can be tested, improved, and reviewed. Curated navigation helps readers move from broad concepts to detailed specialized topics. Rotating featured images highlight scientific ideas and make the front page visually active. The goal is to build a reliable, expandable, and well-organized knowledge platform for science.

Featured from the quantum literature

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Image from or related to the featured external quantum article.

Featured external quantum article

Photons collide in the void: Quantum simulation creates light out of nothing

ScienceDaily · Energy and Resources; Optics; Physics; Telecommunications; Civil Engineering; Virtual Environment; Quantum Physics; Electricity

Article preview.
Physicists have managed to simulate a strange quantum phenomenon where light appears
to arise from empty space a concept that until now has only existed in theory. Using
cutting-edge simulations, researchers modeled how powerful lasers interact with the
so-called quantum vacuum, revealing how photons could bounce off each other and even
generate new beams of light. These breakthroughs come just as new ultra-powerful laser
facilities are preparing to test these mind-bending effects in reality, potentially
opening a gateway to uncovering new physics and even dark matter particles.
The article is featured here because it connects current quantum research with a
broader scientific or technological problem.
The preview highlights the main idea while leaving the detailed evidence, figures and
technical discussion to the original source.
Topic area: Energy and Resources; Optics; Physics; Telecommunications; Civil
Engineering; Virtual Environment; Quantum Physics; Electricity.
The selected source is ScienceDaily; the full article link appears below this preview.

Read the full article at ScienceDaily ->

External source: ScienceDaily. Selected external quantum article.

Credits: ScienceDaily

Main books

Quantum Collection

The parent book for quantum foundations, theory, systems, applications, and frontier topics.

Open gallery

Matter by scale

Quantum matter organized from materials and molecules down to atoms, particles, and fields.

Open matter gallery

Methods and tools

Mathematical, experimental, computational, statistical, and field-theory methods.

Open methods gallery

Data Analysis Techniques in Particle Physics

Book IV: particle-physics data analysis, experiments, reconstruction, statistics, software, and machine learning.

Open Book IV gallery

Featured stage area

In the particle-physics workshop

A compact look at Book IV: how experiments evolved, how collision data is reconstructed, and where the next detectors may lead.

The workshop

Modern detectors turn invisible events into measurable signals.

A short history

From early scattering studies to large collider experiments.

What comes next

Future experiments need sharper reconstruction and smarter analysis.

Quick navigation

Book pages

Data / See also pages

Galleries

Maintenance

Search the site

Use the site search page to find ScholarlyWiki and Quantum Collection pages.

System note

This is the front page. It is intended for review, testing, and controlled development of the Quantum Collection book system.

Author: Harold Foppele

@@ Line 9: / Line 9: @@
 </div>
-<div style="max-width:720px; line-height:1.45;">
+<div style="max-width:920px; line-height:1.45; color:#006b45; column-count:2; column-gap:32px; column-rule:1px solid #b8d8c8;">
-ScholarlyWiki is an open platform for structured scientific knowledge, combining encyclopedia-style articles with organized book collections.
+ScholarlyWiki is a structured platform for scientific knowledge, research notes, and educational collections. It combines encyclopedia-style articles with organized book systems and curated topic indexes. The site is designed for readable explanations, source-based writing, and long-term knowledge building.
-It supports researchers, students, and independent authors with readable pages, references, images, and topic-based navigation.
+Researchers, students, teachers, and independent authors can use it to develop scientific material. Articles can include references, images, formulas, diagrams, categories, and internal cross-links. Book collections make it possible to organize large subjects into chapters, sections, and galleries.
-Explore the Quantum Collection and other scientific resources through curated indexes, linked articles, and rotating featured images.
+The Quantum Collection is the first major example of this structured book-based approach. It connects foundations, methods, matter, applications, and data analysis in one navigable system. ScholarlyWiki also serves as a staging area where pages can be tested, improved, and reviewed. Curated navigation helps readers move from broad concepts to detailed specialized topics. Rotating featured images highlight scientific ideas and make the front page visually active. The goal is to build a reliable, expandable, and well-organized knowledge platform for science.
 </div>
@@ Line 20: / Line 20: @@
-= HandWiki Stage =
+= Featured from the quantum literature =
-<div style="font-size:115%; line-height:1.55;">
+{{Mainpage rotating external quantum article}}
-Welcome to the local HandWiki staging area for the <b>Quantum Collection</b>.
-This stage is used to build, review, organize, and test the book system before final publication.
-</div>
 == Main books ==
@@ Line 75: / Line 72: @@
 == Featured stage area ==
-<div style="border:1px solid #e0d890; background:#fff8cc; padding:10px 14px; margin:1em 0; border-radius:6px;">
+<div style="border:1px solid #e0d890; background:#fff8cc; padding:10px 12px; margin:1em 0; border-radius:6px; overflow:auto;">
+<div style="font-size:120%; font-weight:bold; color:#006b45;">
+In the particle-physics workshop
+</div>
+<div style="line-height:1.4; margin:0.35em 0 0.7em 0;">
+A compact look at <b>[[Book:Quantum Collection/Data Analysis Techniques in Particle Physics|Book IV]]</b>: how experiments evolved, how collision data is reconstructed, and where the next detectors may lead.
+</div>
+<div style="display:grid; grid-template-columns:1.2fr 1fr 1fr; gap:10px; align-items:start;">
-<div style="font-size:120%; font-weight:bold;">Current focus: Book IV images and pages</div>
+<div>
+[[File:Quantum_data_analysis_overview_of_modern_experiments_yellow.png|frameless|100%]]
+<div style="font-weight:bold;">The workshop</div>
+<div style="font-size:90%;">Modern detectors turn invisible events into measurable signals.</div>
+</div>
-<div style="line-height:1.5; margin-top:0.4em;">
+<div>
-The current staging focus is the fourth Quantum Collection child book:
+[[File:Quantum_data_analysis_history_of_HEP_experiments_yellow.png|frameless|100%]]
-<b>Data Analysis Techniques in Particle Physics</b>.
+<div style="font-weight:bold;">A short history</div>
-Images should use the yellow educational style and filenames beginning with the authoritative Book IV page number.
+<div style="font-size:90%;">From early scattering studies to large collider experiments.</div>
 </div>
-<div style="margin-top:0.7em;">
+<div>
-Example filename format:
+[[File:Quantum_data_analysis_future_experiments_yellow.png|frameless|100%]]
-<code>10-Quantum_data_analysis_future_experiments_yellow_colorful.png</code>
+<div style="font-weight:bold;">What comes next</div>
+<div style="font-size:90%;">Future experiments need sharper reconstruction and smarter analysis.</div>
 </div>
 </div>
+</div>
 == Quick navigation ==
@@ Line 129: / Line 142: @@
-== Stage rules ==
+== Search the site ==
 <div style="border:1px solid #ccd6e0; background:#f8fbff; padding:12px; border-radius:6px; line-height:1.55;">
+Use the site search page to find ScholarlyWiki and Quantum Collection pages.
-* Use the Quantum Collection internal-link system wherever possible.
+* [[Special:Search|Search the site]]
-* Prefer links to existing <code>Physics:Quantum...</code> pages or section anchors.
+* [[Special:AllPages|All pages]]
-* Keep book backlinks clean by using backlink templates, not raw top-of-page backlink text.
+* [[Special:RecentChanges|Recent changes]]
-* Use yellow right-float image blocks with background <code>#fff8cc</code>.
-* For Book IV image filenames, start with the authoritative page number.
-* Add new pages to the correct See also data page so the book index stays synchronized.
 </div>
-== Search the stage ==
-<inputbox>
-type=search
-width=40
-buttonlabel=Search HandWiki stage
-searchbuttonlabel=Search
-break=no
-</inputbox>
 == System note ==
 <div class="noexcerpt" style="border:1px solid #ddd; background:#f7f7f7; padding:10px; margin-top:1em; font-size:90%; line-height:1.45;">
-This is a staging front page. It is intended for review, testing, and controlled development of the Quantum Collection book system.
+This is the front page. It is intended for review, testing, and controlled development of the Quantum Collection book system.
 </div>
 {{Author|Harold Foppele}}

ScholarlyWiki a comprehensive guide to modern quantum physics