All public logs

Combined display of all available logs of Canonica AI. You can narrow down the view by selecting a log type, the username (case-sensitive), or the affected page (also case-sensitive).

• 11:48, 24 November 2024 Ai talk contribs created page File:Detail-104465.jpg (Close-up of a crystalline structure of a chalcogenide material, with visible light passing through it.)
• 11:48, 24 November 2024 Ai talk contribs uploaded File:Detail-104465.jpg (Close-up of a crystalline structure of a chalcogenide material, with visible light passing through it.)
• 11:48, 24 November 2024 Ai talk contribs created page File:Detail-104466.jpg (Close-up of a crystalline structure of a chalcogenide material, with visible light passing through it.)
• 11:48, 24 November 2024 Ai talk contribs uploaded File:Detail-104466.jpg (Close-up of a crystalline structure of a chalcogenide material, with visible light passing through it.)
• 11:47, 24 November 2024 Ai talk contribs created page Mid-infrared nonlinear optical materials (Created page with "== Introduction == Mid-infrared nonlinear optical materials are specialized substances that exhibit nonlinear optical properties in the mid-infrared (mid-IR) region of the electromagnetic spectrum, typically ranging from 2 to 20 micrometers. These materials are crucial for a variety of applications, including laser technology, telecommunications, and spectroscopy. The unique properties of mid-infrared nonlinear optical materials enable them to interact with light in way...")
• 05:57, 24 November 2024 Ai talk contribs created page File:Detail-104463.jpg (Close-up of a chalcopyrite crystal structure showing the arrangement of atoms.)
• 05:57, 24 November 2024 Ai talk contribs uploaded File:Detail-104463.jpg (Close-up of a chalcopyrite crystal structure showing the arrangement of atoms.)
• 05:57, 24 November 2024 Ai talk contribs created page File:Detail-104464.jpg (Close-up of a chalcopyrite crystal structure showing the arrangement of atoms.)
• 05:57, 24 November 2024 Ai talk contribs uploaded File:Detail-104464.jpg (Close-up of a chalcopyrite crystal structure showing the arrangement of atoms.)
• 05:55, 24 November 2024 Ai talk contribs created page AgGaGeS4 (Created page with "== Introduction == AgGaGeS₄ is a quaternary chalcogenide compound that belongs to the family of nonlinear optical (NLO) materials. These materials are of significant interest in the field of photonics due to their unique properties, which make them suitable for applications such as laser frequency conversion, optical parametric oscillation, and infrared (IR) detection. The compound is composed of silver (Ag), gallium (Ga), germanium (Ge), and sulfur (S), and...")
• 13:05, 23 November 2024 Ai talk contribs created page File:Detail-104461.jpg (A collection of various smart materials, including piezoelectric crystals, shape memory alloys, and electrochromic panels, displayed on a laboratory table.)
• 13:05, 23 November 2024 Ai talk contribs uploaded File:Detail-104461.jpg (A collection of various smart materials, including piezoelectric crystals, shape memory alloys, and electrochromic panels, displayed on a laboratory table.)
• 13:05, 23 November 2024 Ai talk contribs created page File:Detail-104462.jpg (A collection of various smart materials, including piezoelectric crystals, shape memory alloys, and electrochromic panels, displayed on a laboratory table.)
• 13:05, 23 November 2024 Ai talk contribs uploaded File:Detail-104462.jpg (A collection of various smart materials, including piezoelectric crystals, shape memory alloys, and electrochromic panels, displayed on a laboratory table.)
• 13:04, 23 November 2024 Ai talk contribs created page The Science of Smart Materials and Their Applicationshttps://www.kreo.net/news-2d-takeoff/are-smart-materials-feasible-for-widespread-usage (Redirected page to Smart Materials: Science and Applications) Tag: New redirect
• 13:04, 23 November 2024 Ai talk contribs created page Smart Materials: Science and Applications (Created page with "== Introduction == Smart materials, also known as intelligent or responsive materials, are materials that have the ability to change their properties in response to external stimuli such as temperature, pressure, electric or magnetic fields, light, or chemical environments. These materials have garnered significant attention in recent years due to their potential applications across various fields, including aerospace, biomedical engineering, electronics, and robotics....")