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{"type":"assistant","message":{"model":"claude-sonnet-4-6","id":"msg_01A9VdtAD8X6e7SUXWg8tXse","type":"message","role":"assistant","content":[{"type":"thinking","thinking":"Let me navigate to the Wikipedia article about Nobel laureates in Physics.","signature":"EocCClsIDBgCKkCZSUdDnjOxy73dsZh9EpRVD2IHbMiLBJmc5fa8UK1hXgGSIMRh0MHrog7efziDFEfAlyySQvhlNNbyTj1ZKy37MhFjbGF1ZGUtc29ubmV0LTQtNjgAEgzZG0K+VsBkRZkLdhIaDEUIyU0BdfaMeCJpQCIwcdqky02Ay9jz+CmSINwuCep/t7spRyPVv4VZlQmNgTbl+qM4JdcDA3NdpxjcvuVfKlp/0PJij6JjxfpAGSmmTcTDj8uKm0AjPvuINWfOSlJ+pcmlBE9jWErvj3lG04rTgpcgSEkNU34BwWXhcugRzbQWiJum20LfRj+1HyXhOJPYDxoSMoGk6aHeQswYAQ=="}],"stop_reason":null,"stop_sequence":null,"stop_details":null,"usage":{"input_tokens":2,"cache_creation_input_tokens":7147,"cache_read_input_tokens":22963,"cache_creation":{"ephemeral_5m_input_tokens":0,"ephemeral_1h_input_tokens":7147},"output_tokens":8,"service_tier":"standard","inference_geo":"not_available"},"context_management":null},"parent_tool_use_id":null,"session_id":"c3133442-7064-4f56-a1c4-a76978dd968d","uuid":"8a443f23-ef83-4995-944c-6b68a7004952"}
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{"type":"user","message":{"role":"user","content":[{"tool_use_id":"toolu_01ELqpCoMy8EpbxHycVXqxbP","type":"tool_result","content":[{"type":"text","text":"Successfully navigated to https://en.wikipedia.org/wiki/List_of_Nobel_laureates_in_Physics.\n## Pages\n1: https://en.wikipedia.org/wiki/List_of_Nobel_laureates_in_Physics [selected]"}]}]},"parent_tool_use_id":null,"session_id":"c3133442-7064-4f56-a1c4-a76978dd968d","uuid":"e4189d4f-0255-4b8f-a708-3ced151ba97f","timestamp":"2026-04-03T07:42:30.076Z","tool_use_result":[{"type":"text","text":"Successfully navigated to https://en.wikipedia.org/wiki/List_of_Nobel_laureates_in_Physics.\n## Pages\n1: https://en.wikipedia.org/wiki/List_of_Nobel_laureates_in_Physics [selected]"}]}
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{"type":"user","message":{"role":"user","content":[{"tool_use_id":"toolu_01SuRW3QgegQY4vx5cnyKm9m","type":"tool_result","content":[{"type":"text","text":"Script ran on page and returned:\n```json\n[{\"year\":\"2010\",\"text\":\"2010 |  | Andre Geim | United Kingdom | \\\"For groundbreaking experiments regarding the two-dimensional material graphene.\\\" | [113]\"},{\"year\":\"2011\",\"text\":\"2011 |  | Saul Perlmutter | United States | \\\"For the discovery of the accelerating expansion of the Universe through observations of distant supernovae.\\\" | [114]\"},{\"year\":\"2012\",\"text\":\"2012 |  | Serge Haroche | France | \\\"For ground-breaking experimental methods that enable measuring and manipulation of individual quantum systems.\\\" | [115]\"},{\"year\":\"2013\",\"text\":\"2013 |  | François Englert | Belgium | \\\"For the theoretical discovery of a mechanism that contributes to our understanding of the origin of mass of subatomic particles, and which recently was confirmed through the discovery of the predicted fundamental particle, by the ATLAS and CMS experiments at CERN's Large Hadron Collider.\\\" | [116]\"},{\"year\":\"2014\",\"text\":\"2014 |  | Isamu Akasaki | Japan | \\\"For the invention of efficient blue light-emitting diodes which has enabled bright and energy-saving white light sources.\\\" | [117]\"},{\"year\":\"2015\",\"text\":\"2015 |  | Takaaki Kajita | Japan | \\\"For the discovery of neutrino oscillations, which shows that neutrinos have mass.\\\" | [118]\"},{\"year\":\"2016\",\"text\":\"2016 |  | David J. Thouless | United States | \\\"For theoretical discoveries of topological phase transitions and topological phases of matter.\\\" | [119]\"},{\"year\":\"2017\",\"text\":\"2017 |  | Rainer Weiss | United States | \\\"For decisive contributions to the LIGO detector and the observation of gravitational waves.\\\" | [120]\"},{\"year\":\"2018\",\"text\":\"2018 |  | Arthur Ashkin | United States | \\\"For the optical tweezers and their application to biological systems.\\\" | [121]\"},{\"year\":\"2019\",\"text\":\"2019 |  | James Peebles | United States | \\\"For theoretical discoveries in physical cosmology.\\\" | [122]\"},{\"year\":\"2020\",\"text\":\"2020 |  | Roger Penrose | United Kingdom | \\\"For the discovery that black hole formation is a robust prediction of the general theory of relativity.\\\" | [123]\"},{\"year\":\"2021\",\"text\":\"2021 |  | Syukuro Manabe | United States | \\\"For the physical modelling of Earth’s climate, quantifying variability and reliably predicting global warming.\\\" | [124]\"},{\"year\":\"2022\",\"text\":\"2022 |  | Alain Aspect | France | \\\"For experiments with entangled photons, establishing the violation of Bell inequalities and pioneering quantum information science.\\\" | [125]\"},{\"year\":\"2023\",\"text\":\"2023 |  | Pierre Agostini | United States | \\\"For experimental methods that generate attosecond pulses of light for the study of electron dynamics in matter.\\\" | [126]\"},{\"year\":\"2024\",\"text\":\"2024 |  | John J. Hopfield | United States | \\\"For foundational discoveries and inventions that enable machine learning with artificial neural networks.\\\" | [127]\"},{\"year\":\"2025\",\"text\":\"2025 |  | John Clarke | United States | \\\"For the discovery of macroscopic quantum mechanical tunnelling and energy quantisation in an electric circuit.\\\" | [128]\"}]\n```"}]}]},"parent_tool_use_id":null,"session_id":"c3133442-7064-4f56-a1c4-a76978dd968d","uuid":"3e2b60c8-22d3-4a3b-ba9e-e0029e0965eb","timestamp":"2026-04-03T07:42:35.041Z","tool_use_result":[{"type":"text","text":"Script ran on page and returned:\n```json\n[{\"year\":\"2010\",\"text\":\"2010 |  | Andre Geim | United Kingdom | \\\"For groundbreaking experiments regarding the two-dimensional material graphene.\\\" | [113]\"},{\"year\":\"2011\",\"text\":\"2011 |  | Saul Perlmutter | United States | \\\"For the discovery of the accelerating expansion of the Universe through observations of distant supernovae.\\\" | [114]\"},{\"year\":\"2012\",\"text\":\"2012 |  | Serge Haroche | France | \\\"For ground-breaking experimental methods that enable measuring and manipulation of individual quantum systems.\\\" | [115]\"},{\"year\":\"2013\",\"text\":\"2013 |  | François Englert | Belgium | \\\"For the theoretical discovery of a mechanism that contributes to our understanding of the origin of mass of subatomic particles, and which recently was confirmed through the discovery of the predicted fundamental particle, by the ATLAS and CMS experiments at CERN's Large Hadron Collider.\\\" | [116]\"},{\"year\":\"2014\",\"text\":\"2014 |  | Isamu Akasaki | Japan | \\\"For the invention of efficient blue light-emitting diodes which has enabled bright and energy-saving white light sources.\\\" | [117]\"},{\"year\":\"2015\",\"text\":\"2015 |  | Takaaki Kajita | Japan | \\\"For the discovery of neutrino oscillations, which shows that neutrinos have mass.\\\" | [118]\"},{\"year\":\"2016\",\"text\":\"2016 |  | David J. Thouless | United States | \\\"For theoretical discoveries of topological phase transitions and topological phases of matter.\\\" | [119]\"},{\"year\":\"2017\",\"text\":\"2017 |  | Rainer Weiss | United States | \\\"For decisive contributions to the LIGO detector and the observation of gravitational waves.\\\" | [120]\"},{\"year\":\"2018\",\"text\":\"2018 |  | Arthur Ashkin | United States | \\\"For the optical tweezers and their application to biological systems.\\\" | [121]\"},{\"year\":\"2019\",\"text\":\"2019 |  | James Peebles | United States | \\\"For theoretical discoveries in physical cosmology.\\\" | [122]\"},{\"year\":\"2020\",\"text\":\"2020 |  | Roger Penrose | United Kingdom | \\\"For the discovery that black hole formation is a robust prediction of the general theory of relativity.\\\" | [123]\"},{\"year\":\"2021\",\"text\":\"2021 |  | Syukuro Manabe | United States | \\\"For the physical modelling of Earth’s climate, quantifying variability and reliably predicting global warming.\\\" | [124]\"},{\"year\":\"2022\",\"text\":\"2022 |  | Alain Aspect | France | \\\"For experiments with entangled photons, establishing the violation of Bell inequalities and pioneering quantum information science.\\\" | [125]\"},{\"year\":\"2023\",\"text\":\"2023 |  | Pierre Agostini | United States | \\\"For experimental methods that generate attosecond pulses of light for the study of electron dynamics in matter.\\\" | [126]\"},{\"year\":\"2024\",\"text\":\"2024 |  | John J. Hopfield | United States | \\\"For foundational discoveries and inventions that enable machine learning with artificial neural networks.\\\" | [127]\"},{\"year\":\"2025\",\"text\":\"2025 |  | John Clarke | United States | \\\"For the discovery of macroscopic quantum mechanical tunnelling and energy quantisation in an electric circuit.\\\" | [128]\"}]\n```"}]}
{"type":"assistant","message":{"model":"claude-sonnet-4-6","id":"msg_01DomjqcM2AeJdvrz8aPBmmn","type":"message","role":"assistant","content":[{"type":"thinking","thinking":"Now I have the recent years. Let me get more detail on the 3 most recent years (2025, 2024, 2023) to find all winners since there can be multiple per year.","signature":"EtkCClsIDBgCKkBCbxYsYqjDdKpb7fd1kainyg8/33PgkAdvrNCA/rz/Bk5KVr8RvZry+lvZwDAY/aXAt1vKbN6vpHwYvrTp3YBdMhFjbGF1ZGUtc29ubmV0LTQtNjgAEgydXFVO8ywXtp1M3kkaDHVevw16Tza2q1qroiIwmDbxly1rNDCeG2uB5uOCJfBv20+gJLbDQQF/gU0HEa44w3cipcT+7/0Jpw1T4lCUKqsBBB6833AVl+GFQWLd9QjsyG7IBkhQktPSHvkxYHdlwSeE+IiQ56H2Iy7sgVo8tadiugwtY7NWLkfLdFueTOAkLPX0G256jRnsGTIZsq8MStXtfcTG7Y+MV5C/cvmRTkb0GFletO7XIhPrHJuuj+tsof6YPLDykQ0u+Sr2nyd0ITHEbClw1KqZ/CFY6t5JU47osp5S0tGvyVNSfo5tcNjC9Sm3Ulstped0lNHSGAE="}],"stop_reason":null,"stop_sequence":null,"stop_details":null,"usage":{"input_tokens":1,"cache_creation_input_tokens":1113,"cache_read_input_tokens":30309,"cache_creation":{"ephemeral_5m_input_tokens":0,"ephemeral_1h_input_tokens":1113},"output_tokens":8,"service_tier":"standard","inference_geo":"not_available"},"context_management":null},"parent_tool_use_id":null,"session_id":"c3133442-7064-4f56-a1c4-a76978dd968d","uuid":"648a5cef-684f-4022-b034-5f5a0c3b0e89"}
{"type":"assistant","message":{"model":"claude-sonnet-4-6","id":"msg_01DomjqcM2AeJdvrz8aPBmmn","type":"message","role":"assistant","content":[{"type":"tool_use","id":"toolu_018Fmt6i7UYTGfqREDxVsG6C","name":"mcp__chrome-devtools__evaluate_script","input":{"function":"() => {\n  const tables = document.querySelectorAll('table.wikitable');\n  let yearData = {};\n  \n  for (const table of tables) {\n    const rows = table.querySelectorAll('tr');\n    let currentYear = null;\n    \n    for (const row of rows) {\n      const cells = row.querySelectorAll('td, th');\n      if (cells.length === 0) continue;\n      \n      const firstCell = cells[0].textContent.trim();\n      if (/^202[3-9]$/.test(firstCell)) {\n        currentYear = firstCell;\n        yearData[currentYear] = yearData[currentYear] || [];\n      }\n      \n      // Check if this row has a name (laureate row)\n      if (cells.length >= 3) {\n        const text = Array.from(cells).map(c => c.textContent.trim());\n        const yearMatch = /^(202[3-9])$/.test(text[0]);\n        if (yearMatch || (currentYear && !yearMatch && text[0] === '')) {\n          const year = yearMatch ? text[0] : currentYear;\n          if (year && /^202[3-9]$/.test(year)) {\n            yearData[year] = yearData[year] || [];\n            // Find name cells\n            for (let i = 0; i < text.length; i++) {\n              if (text[i] && text[i].length > 2 && !text[i].match(/^\\[/) && !text[i].match(/^\"/)) {\n                // Could be a name\n              }\n            }\n          }\n        }\n      }\n    }\n  }\n  \n  // Better approach: get all rows for recent years\n  const allRows = [];\n  for (const table of tables) {\n    const rows = Array.from(table.querySelectorAll('tr'));\n    let lastYear = null;\n    for (const row of rows) {\n      const cells = Array.from(row.querySelectorAll('td'));\n      if (cells.length === 0) continue;\n      const rowText = cells.map(c => c.textContent.trim());\n      \n      // Check if year cell exists\n      const yearMatch = rowText.find(t => /^202[0-9]$/.test(t));\n      if (yearMatch) lastYear = yearMatch;\n      \n      if (lastYear && parseInt(lastYear) >= 2023) {\n        allRows.push({ year: lastYear, cells: rowText });\n      }\n    }\n  }\n  return allRows;\n}\n"},"caller":{"type":"direct"}}],"stop_reason":null,"stop_sequence":null,"stop_details":null,"usage":{"input_tokens":1,"cache_creation_input_tokens":1113,"cache_read_input_tokens":30309,"cache_creation":{"ephemeral_5m_input_tokens":0,"ephemeral_1h_input_tokens":1113},"output_tokens":8,"service_tier":"standard","inference_geo":"not_available"},"context_management":null},"parent_tool_use_id":null,"session_id":"c3133442-7064-4f56-a1c4-a76978dd968d","uuid":"617c2a3a-ef45-4185-9ead-6543558707d7"}
{"type":"user","message":{"role":"user","content":[{"tool_use_id":"toolu_018Fmt6i7UYTGfqREDxVsG6C","type":"tool_result","content":[{"type":"text","text":"Script ran on page and returned:\n```json\n[{\"year\":\"2023\",\"cells\":[\"2023\",\"\",\"Pierre Agostini\",\"United States\",\"\\\"For experimental methods that generate attosecond pulses of light for the study of electron dynamics in matter.\\\"\",\"[126]\"]},{\"year\":\"2023\",\"cells\":[\"\",\"Ferenc Krausz\",\"Germany\"]},{\"year\":\"2023\",\"cells\":[\"\",\"Anne L’Huillier\",\"Sweden\"]},{\"year\":\"2023\",\"cells\":[\"\"]},{\"year\":\"2024\",\"cells\":[\"2024\",\"\",\"John J. Hopfield\",\"United States\",\"\\\"For foundational discoveries and inventions that enable machine learning with artificial neural networks.\\\"\",\"[127]\"]},{\"year\":\"2024\",\"cells\":[\"\",\"Geoffrey Hinton\",\"Canada\"]},{\"year\":\"2024\",\"cells\":[\"\"]},{\"year\":\"2025\",\"cells\":[\"2025\",\"\",\"John Clarke\",\"United States\",\"\\\"For the discovery of macroscopic quantum mechanical tunnelling and energy quantisation in an electric circuit.\\\"\",\"[128]\"]},{\"year\":\"2025\",\"cells\":[\"\",\"Michel H. Devoret\"]},{\"year\":\"2025\",\"cells\":[\"\",\"John M. Martinis\"]}]\n```"}]}]},"parent_tool_use_id":null,"session_id":"c3133442-7064-4f56-a1c4-a76978dd968d","uuid":"5b385029-fecf-42dd-ba0d-16e5458384e0","timestamp":"2026-04-03T07:42:45.672Z","tool_use_result":[{"type":"text","text":"Script ran on page and returned:\n```json\n[{\"year\":\"2023\",\"cells\":[\"2023\",\"\",\"Pierre Agostini\",\"United States\",\"\\\"For experimental methods that generate attosecond pulses of light for the study of electron dynamics in matter.\\\"\",\"[126]\"]},{\"year\":\"2023\",\"cells\":[\"\",\"Ferenc Krausz\",\"Germany\"]},{\"year\":\"2023\",\"cells\":[\"\",\"Anne L’Huillier\",\"Sweden\"]},{\"year\":\"2023\",\"cells\":[\"\"]},{\"year\":\"2024\",\"cells\":[\"2024\",\"\",\"John J. Hopfield\",\"United States\",\"\\\"For foundational discoveries and inventions that enable machine learning with artificial neural networks.\\\"\",\"[127]\"]},{\"year\":\"2024\",\"cells\":[\"\",\"Geoffrey Hinton\",\"Canada\"]},{\"year\":\"2024\",\"cells\":[\"\"]},{\"year\":\"2025\",\"cells\":[\"2025\",\"\",\"John Clarke\",\"United States\",\"\\\"For the discovery of macroscopic quantum mechanical tunnelling and energy quantisation in an electric circuit.\\\"\",\"[128]\"]},{\"year\":\"2025\",\"cells\":[\"\",\"Michel H. Devoret\"]},{\"year\":\"2025\",\"cells\":[\"\",\"John M. Martinis\"]}]\n```"}]}
{"type":"assistant","message":{"model":"claude-sonnet-4-6","id":"msg_011i7XHpj5KKNHdXMPU5GF75","type":"message","role":"assistant","content":[{"type":"text","text":"Here are the Nobel Prize winners in Physics for the 3 most recent years listed:\n\n---\n\n**2025**\n- John Clarke (United States)\n- Michel H. Devoret\n- John M. Martinis\n\n*\"For the discovery of macroscopic quantum mechanical tunnelling and energy quantisation in an electric circuit.\"*\n\n---\n\n**2024**\n- John J. Hopfield (United States)\n- Geoffrey Hinton (Canada)\n\n*\"For foundational discoveries and inventions that enable machine learning with artificial neural networks.\"*\n\n---\n\n**2023**\n- Pierre Agostini (United States)\n- Ferenc Krausz (Germany)\n- Anne L'Huillier (Sweden)\n\n*\"For experimental methods that generate attosecond pulses of light for the study of electron dynamics in matter.\"*"}],"stop_reason":null,"stop_sequence":null,"stop_details":null,"usage":{"input_tokens":1,"cache_creation_input_tokens":1040,"cache_read_input_tokens":31422,"cache_creation":{"ephemeral_5m_input_tokens":0,"ephemeral_1h_input_tokens":1040},"output_tokens":1,"service_tier":"standard","inference_geo":"not_available"},"context_management":null},"parent_tool_use_id":null,"session_id":"c3133442-7064-4f56-a1c4-a76978dd968d","uuid":"36a825e5-f060-4476-89ce-26a231871689"}
{"type":"result","subtype":"success","is_error":false,"duration_ms":23599,"duration_api_ms":22025,"num_turns":4,"result":"Here are the Nobel Prize winners in Physics for the 3 most recent years listed:\n\n---\n\n**2025**\n- John Clarke (United States)\n- Michel H. Devoret\n- John M. Martinis\n\n*\"For the discovery of macroscopic quantum mechanical tunnelling and energy quantisation in an electric circuit.\"*\n\n---\n\n**2024**\n- John J. Hopfield (United States)\n- Geoffrey Hinton (Canada)\n\n*\"For foundational discoveries and inventions that enable machine learning with artificial neural networks.\"*\n\n---\n\n**2023**\n- Pierre Agostini (United States)\n- Ferenc Krausz (Germany)\n- Anne L'Huillier (Sweden)\n\n*\"For experimental methods that generate attosecond pulses of light for the study of electron dynamics in matter.\"*","stop_reason":"end_turn","session_id":"c3133442-7064-4f56-a1c4-a76978dd968d","total_cost_usd":0.09028245,"usage":{"input_tokens":5,"cache_creation_input_tokens":9499,"cache_read_input_tokens":114804,"output_tokens":1347,"server_tool_use":{"web_search_requests":0,"web_fetch_requests":0},"service_tier":"standard","cache_creation":{"ephemeral_1h_input_tokens":9499,"ephemeral_5m_input_tokens":0},"inference_geo":"","iterations":[],"speed":"standard"},"modelUsage":{"claude-sonnet-4-6":{"inputTokens":5,"outputTokens":1347,"cacheReadInputTokens":114804,"cacheCreationInputTokens":9499,"webSearchRequests":0,"costUSD":0.09028245,"contextWindow":200000,"maxOutputTokens":32000}},"permission_denials":[],"fast_mode_state":"off","uuid":"9158e4ac-f998-43c7-9967-0ec23ee0c0d7"}
