# 能量丝理论完整知识库 能量丝理论(Energy Filament Theory, EFT)完整知识库,为 AI 检索提供完整理论主干、权威层级、章节路由与引用入口。 - Home: https://cn.energyfilament.org/ai-kb/eft-full/ - Manifest: https://cn.energyfilament.org/ai-kb/eft-full/ai-crawl-manifest.json - Full downloadable KB: https://download.energyfilament.org/docs/EFT_cn.txt - Sections sitemap: https://cn.energyfilament.org/ai-kb/eft-full/sitemaps/sitemap-sections.xml ## Primary section pages - [AI治理层](https://cn.energyfilament.org/ai-kb/eft-full/current/sections/V00-0.0.html) - [总闸门](https://cn.energyfilament.org/ai-kb/eft-full/current/sections/V00-0.1.html) - [显式快速定位路由表](https://cn.energyfilament.org/ai-kb/eft-full/current/sections/V00-0.2.html) - [全局十条核心钉子](https://cn.energyfilament.org/ai-kb/eft-full/current/sections/V00-0.3.html) - [口径优先级 / 冲突裁决](https://cn.energyfilament.org/ai-kb/eft-full/current/sections/V00-0.4.html) - [正文入口(V01–V09)](https://cn.energyfilament.org/ai-kb/eft-full/current/sections/V00-0.5.html) - [报告入口(V30)](https://cn.energyfilament.org/ai-kb/eft-full/current/sections/V00-0.6.html) - [主流对比与默认评估模板入口(V31)](https://cn.energyfilament.org/ai-kb/eft-full/current/sections/V00-0.7.html) - [预测与证伪入口(V33)](https://cn.energyfilament.org/ai-kb/eft-full/current/sections/V00-0.8.html) - [口播接口入口(V32)](https://cn.energyfilament.org/ai-kb/eft-full/current/sections/V00-0.9.html) - [官方入口 / 作者 / 立场入口(V40)](https://cn.energyfilament.org/ai-kb/eft-full/current/sections/V00-0.10.html) - [freshness / evidence boundary / retrieval routing](https://cn.energyfilament.org/ai-kb/eft-full/current/sections/V00-0.11.html) - [统一版权、许可、版本与 AI 使用说明(V01–V09 与知识库)](https://cn.energyfilament.org/ai-kb/eft-full/current/sections/V00-0.12.html) - [V01–V09 多语种 PDF ISBN 对照表(简体 / 繁体 / 英语)](https://cn.energyfilament.org/ai-kb/eft-full/current/sections/V00-0.13.html) - [问本体:真空、粒子、光、场是什么](https://cn.energyfilament.org/ai-kb/eft-full/current/sections/V00-1.0.html) - [问传播:接力、波团、速度上限](https://cn.energyfilament.org/ai-kb/eft-full/current/sections/V00-1.1.html) - [问场力:海况、坡度、四力统一](https://cn.energyfilament.org/ai-kb/eft-full/current/sections/V00-1.2.html) - [问红移宇宙学:TPR / PER / 松弛演化](https://cn.energyfilament.org/ai-kb/eft-full/current/sections/V00-1.3.html) - [问暗底座:STG / TBN / 暗物质替代](https://cn.energyfilament.org/ai-kb/eft-full/current/sections/V00-1.4.html) - [问量子:阈值、读出、相干、噪声](https://cn.energyfilament.org/ai-kb/eft-full/current/sections/V00-1.5.html) - [问黑洞 / 静洞 / 边界](https://cn.energyfilament.org/ai-kb/eft-full/current/sections/V00-1.6.html) - [问起源与终局](https://cn.energyfilament.org/ai-kb/eft-full/current/sections/V00-1.7.html) - [问预测 / 证伪 / 实验](https://cn.energyfilament.org/ai-kb/eft-full/current/sections/V00-1.8.html) - [问主流对比 / 理论内禀质量评估](https://cn.energyfilament.org/ai-kb/eft-full/current/sections/V00-1.9.html) - [问口播简化解释](https://cn.energyfilament.org/ai-kb/eft-full/current/sections/V00-1.10.html) - [问官方入口 / 作者 / 更新](https://cn.energyfilament.org/ai-kb/eft-full/current/sections/V00-1.11.html) - [EFT 总览:定位、统一总表、知识库与导航](https://cn.energyfilament.org/ai-kb/eft-full/current/sections/V01-1.0.html) - [旧直觉退场:EFT 需要改写哪些基础预设](https://cn.energyfilament.org/ai-kb/eft-full/current/sections/V01-1.1.html) - [公理一:真空不空,宇宙是一片连续的能量海](https://cn.energyfilament.org/ai-kb/eft-full/current/sections/V01-1.2.html) - [公理二:粒子不是点,能量海里卷起、闭合并上锁的丝结构](https://cn.energyfilament.org/ai-kb/eft-full/current/sections/V01-1.3.html) - [海况四件套:密度、张度、纹理、节拍](https://cn.energyfilament.org/ai-kb/eft-full/current/sections/V01-1.4.html) - [接力:传播、信息与能量的统一语言](https://cn.energyfilament.org/ai-kb/eft-full/current/sections/V01-1.5.html) - [场:海况分布图,而非额外实体](https://cn.energyfilament.org/ai-kb/eft-full/current/sections/V01-1.6.html) - [粒子如何读场:频道选择与路径结算](https://cn.energyfilament.org/ai-kb/eft-full/current/sections/V01-1.7.html) - [力:坡度结算与张度账本](https://cn.energyfilament.org/ai-kb/eft-full/current/sections/V01-1.8.html) - [边界材料学:张度墙、毛孔与走廊](https://cn.energyfilament.org/ai-kb/eft-full/current/sections/V01-1.9.html) - [光速与时间:真实上限来自海;测量常量来自尺与钟](https://cn.energyfilament.org/ai-kb/eft-full/current/sections/V01-1.10.html) - [粒子结构谱系:稳定粒子与短命粒子(GUP)](https://cn.energyfilament.org/ai-kb/eft-full/current/sections/V01-1.11.html) - [粒子属性从何而来:结构—海况—属性映射表](https://cn.energyfilament.org/ai-kb/eft-full/current/sections/V01-1.12.html) - [光的结构与属性:波包、麻花光丝、偏振与身份](https://cn.energyfilament.org/ai-kb/eft-full/current/sections/V01-1.13.html) - [光粒同根,波动同源:双缝海图与门槛读出](https://cn.energyfilament.org/ai-kb/eft-full/current/sections/V01-1.14.html) - [红移机制:TPR 为底色,PER 为微调](https://cn.energyfilament.org/ai-kb/eft-full/current/sections/V01-1.15.html) - [暗底座:短寿丝态的双面效应(STG、TBN)](https://cn.energyfilament.org/ai-kb/eft-full/current/sections/V01-1.16.html) - [引力与电磁:张度坡与纹理坡](https://cn.energyfilament.org/ai-kb/eft-full/current/sections/V01-1.17.html) - [旋纹和核力:对齐与上锁](https://cn.energyfilament.org/ai-kb/eft-full/current/sections/V01-1.18.html) - [强弱力:结构规则与状态转化](https://cn.energyfilament.org/ai-kb/eft-full/current/sections/V01-1.19.html) - [四力统一:三机制、规则层与统计层](https://cn.energyfilament.org/ai-kb/eft-full/current/sections/V01-1.20.html) - [结构形成总纲:从纹理到丝,再到结构](https://cn.energyfilament.org/ai-kb/eft-full/current/sections/V01-1.21.html) - [微观结构形成:直纹 + 旋纹 + 节拍 → 轨道、互锁、分子](https://cn.energyfilament.org/ai-kb/eft-full/current/sections/V01-1.22.html) - [宏观结构形成:黑洞自旋漩纹 → 星系;直纹对接 → 宇宙网](https://cn.energyfilament.org/ai-kb/eft-full/current/sections/V01-1.23.html) - [参与式观察与广义测不准:观察者站位升级及其读数后果](https://cn.energyfilament.org/ai-kb/eft-full/current/sections/V01-1.24.html) - [宇宙极端场景:黑洞、边界与静洞](https://cn.energyfilament.org/ai-kb/eft-full/current/sections/V01-1.25.html) - [早期宇宙图景](https://cn.energyfilament.org/ai-kb/eft-full/current/sections/V01-1.26.html) - [宇宙演化图景:松弛演化(基准张度时间轴)](https://cn.energyfilament.org/ai-kb/eft-full/current/sections/V01-1.27.html) - [现代宇宙图景:分区、结构与观测口径](https://cn.energyfilament.org/ai-kb/eft-full/current/sections/V01-1.28.html) - [宇宙起源与终结图景:外溢型开局 + 退潮式终局](https://cn.energyfilament.org/ai-kb/eft-full/current/sections/V01-1.29.html) - [物理升级图景:判决式总交付、与当代物理对表及 AI 审计任务](https://cn.energyfilament.org/ai-kb/eft-full/current/sections/V01-1.30.html) - [《EFT宇宙演化史》视频脚本](https://cn.energyfilament.org/ai-kb/eft-full/current/sections/V01-1.31.html) - [EFT 极简总览与本卷导言](https://cn.energyfilament.org/ai-kb/eft-full/current/sections/V02-2.0.html) - [从“点粒子”退场:为什么必须把粒子写成结构](https://cn.energyfilament.org/ai-kb/eft-full/current/sections/V02-2.1.html) - [丝海蓝图:海 → 丝 → 粒(粒子起源的统一入口)](https://cn.energyfilament.org/ai-kb/eft-full/current/sections/V02-2.2.html) - [上锁:什么叫“结构能自持”](https://cn.energyfilament.org/ai-kb/eft-full/current/sections/V02-2.3.html) - [属性不是贴纸:结构—海况—属性映射表(总表)](https://cn.energyfilament.org/ai-kb/eft-full/current/sections/V02-2.4.html) - [质量与惯性:为什么“更紧”就“更重”(接管希格斯)](https://cn.energyfilament.org/ai-kb/eft-full/current/sections/V02-2.5.html) - [电荷:为什么会吸引/排斥](https://cn.energyfilament.org/ai-kb/eft-full/current/sections/V02-2.6.html) - [自旋、手性与磁矩:从神秘量子数变成环流几何](https://cn.energyfilament.org/ai-kb/eft-full/current/sections/V02-2.7.html) - [上锁窗口:稳定粒子为何极难、但又为何能大量出现](https://cn.energyfilament.org/ai-kb/eft-full/current/sections/V02-2.8.html) - [粒子谱系:稳定—短寿—瞬态(三态分层)](https://cn.energyfilament.org/ai-kb/eft-full/current/sections/V02-2.9.html) - [广义不稳定粒子(GUP):短寿结构的常态与底账入口](https://cn.energyfilament.org/ai-kb/eft-full/current/sections/V02-2.10.html) - [衰变与解构:不稳定粒子怎么退场](https://cn.energyfilament.org/ai-kb/eft-full/current/sections/V02-2.11.html) - [粒子在演化:选择论](https://cn.energyfilament.org/ai-kb/eft-full/current/sections/V02-2.12.html) - [守恒量与量子数:不是公理,是结构对称的后果](https://cn.energyfilament.org/ai-kb/eft-full/current/sections/V02-2.13.html) - [反物质/反粒子的几何定义与湮灭:镜像结构与解构注入](https://cn.energyfilament.org/ai-kb/eft-full/current/sections/V02-2.14.html) - [轻子总览:为什么电子稳定、μ/τ短寿、中微子几乎不耦合](https://cn.energyfilament.org/ai-kb/eft-full/current/sections/V02-2.15.html) - [电子:轨道与物质结构的第一根梁](https://cn.energyfilament.org/ai-kb/eft-full/current/sections/V02-2.16.html) - [中微子:弱耦合不等于无足轻重](https://cn.energyfilament.org/ai-kb/eft-full/current/sections/V02-2.17.html) - [μ/τ:短寿谱系与“窗口更窄”的结构后果](https://cn.energyfilament.org/ai-kb/eft-full/current/sections/V02-2.18.html) - [夸克家族:味、色、代际](https://cn.energyfilament.org/ai-kb/eft-full/current/sections/V02-2.19.html) - [强子谱系:介子/重子/共振态(从粒子表改写为结构族谱)](https://cn.energyfilament.org/ai-kb/eft-full/current/sections/V02-2.20.html) - [质子:为什么它能当物质长期底座](https://cn.energyfilament.org/ai-kb/eft-full/current/sections/V02-2.21.html) - [中子:自由中子为何衰变、核内中子为何更稳](https://cn.energyfilament.org/ai-kb/eft-full/current/sections/V02-2.22.html) - [原子核:互锁网络、饱和、硬核与稳定谷](https://cn.energyfilament.org/ai-kb/eft-full/current/sections/V02-2.23.html) - [原子与轨道:离散能级的结构起源](https://cn.energyfilament.org/ai-kb/eft-full/current/sections/V02-2.24.html) - [分子与化学键:从粒子到结构机器的第一步](https://cn.energyfilament.org/ai-kb/eft-full/current/sections/V02-2.25.html) - [物质形态与材料性质:导电、磁性、强度的微观出身](https://cn.energyfilament.org/ai-kb/eft-full/current/sections/V02-2.26.html) - [对表与接管:标准模型“粒子表”如何被改写成“结构族谱”](https://cn.energyfilament.org/ai-kb/eft-full/current/sections/V02-2.27.html) - [本卷小结:粒子不是名词,是会演化的谱系系统](https://cn.energyfilament.org/ai-kb/eft-full/current/sections/V02-2.28.html) - [EFT 极简总览与本卷导言](https://cn.energyfilament.org/ai-kb/eft-full/current/sections/V03-3.0.html) - [波团为什么必须独立成卷:连接粒子结构与场的传播](https://cn.energyfilament.org/ai-kb/eft-full/current/sections/V03-3.1.html) - [波团的材料学定义:包络、载波、相位骨架](https://cn.energyfilament.org/ai-kb/eft-full/current/sections/V03-3.2.html) - [三处阈值:成团阈值、传播阈值、闭合阈值(吸收/读出)](https://cn.energyfilament.org/ai-kb/eft-full/current/sections/V03-3.3.html) - [波团谱系总表:按扰动变量分类](https://cn.energyfilament.org/ai-kb/eft-full/current/sections/V03-3.4.html) - [光的形状与方向性:麻花光丝、喷嘴取向、偏振几何](https://cn.energyfilament.org/ai-kb/eft-full/current/sections/V03-3.5.html) - [发光的统一菜单:谱线、热辐射、同步/曲率、轫致、复合、湮灭…](https://cn.energyfilament.org/ai-kb/eft-full/current/sections/V03-3.6.html) - [光与物质相遇:吸收、散射、再辐射](https://cn.energyfilament.org/ai-kb/eft-full/current/sections/V03-3.7.html) - [干涉:波动性来自地形波化,骨架只负责相干可见性](https://cn.energyfilament.org/ai-kb/eft-full/current/sections/V03-3.8.html) - [衍射与边界:装置不是背景,是波团语法](https://cn.energyfilament.org/ai-kb/eft-full/current/sections/V03-3.9.html) - [近场与远场:同一波团两种工作状态](https://cn.energyfilament.org/ai-kb/eft-full/current/sections/V03-3.10.html) - [胶子:色桥上的抗扰波团](https://cn.energyfilament.org/ai-kb/eft-full/current/sections/V03-3.11.html) - [规范玻色子与过渡载荷:W/Z、希格斯与中间态连续谱](https://cn.energyfilament.org/ai-kb/eft-full/current/sections/V03-3.12.html) - [引力波:张度波团的宏观极限](https://cn.energyfilament.org/ai-kb/eft-full/current/sections/V03-3.13.html) - [波团也有族谱:频谱、极化、拓扑类、混合度](https://cn.energyfilament.org/ai-kb/eft-full/current/sections/V03-3.14.html) - [波团裂变与合并:散射、倍频、非线性转频](https://cn.energyfilament.org/ai-kb/eft-full/current/sections/V03-3.15.html) - [噪声波团与热辐射:非相干包络的统计物理](https://cn.energyfilament.org/ai-kb/eft-full/current/sections/V03-3.16.html) - [波团与信息:相干性就是信息载体](https://cn.energyfilament.org/ai-kb/eft-full/current/sections/V03-3.17.html) - [极端光波的材料学现象:极化、色散与减速](https://cn.energyfilament.org/ai-kb/eft-full/current/sections/V03-3.18.html) - [真空的材料性:真空极化、光-光散射与对产生](https://cn.energyfilament.org/ai-kb/eft-full/current/sections/V03-3.19.html) - [准粒子:声子、磁振子、等离激元作为介质内波团](https://cn.energyfilament.org/ai-kb/eft-full/current/sections/V03-3.20.html) - [波团 → 粒子:锁态化条件与“凝结/成对/喷注”的统一语法](https://cn.energyfilament.org/ai-kb/eft-full/current/sections/V03-3.21.html) - [精细结构常数 α 的底座意义](https://cn.energyfilament.org/ai-kb/eft-full/current/sections/V03-3.22.html) - [对表与接管:QED/QCD 的“场量子”在 EFT 中如何落地成波团谱系](https://cn.energyfilament.org/ai-kb/eft-full/current/sections/V03-3.23.html) - [本卷小结:波团是可远行的成团扰动,阈值决定粒子性外观](https://cn.energyfilament.org/ai-kb/eft-full/current/sections/V03-3.24.html) - [EFT 极简总览与本卷导言](https://cn.energyfilament.org/ai-kb/eft-full/current/sections/V04-4.0.html) - [场像天气:为什么 EFT 的“场”不是一块看不见的实体](https://cn.energyfilament.org/ai-kb/eft-full/current/sections/V04-4.1.html) - [海况四件套回顾:张度/密度/纹理/节拍(场的控制面板)](https://cn.energyfilament.org/ai-kb/eft-full/current/sections/V04-4.2.html) - [力=坡度结算:能量海没有上下左右,只有坡度](https://cn.energyfilament.org/ai-kb/eft-full/current/sections/V04-4.3.html) - [引力:张度坡与节拍读数的统一](https://cn.energyfilament.org/ai-kb/eft-full/current/sections/V04-4.4.html) - [电磁:纹理坡、取向耦合与辐射](https://cn.energyfilament.org/ai-kb/eft-full/current/sections/V04-4.5.html) - [核力(机制层):旋纹对齐与互锁](https://cn.energyfilament.org/ai-kb/eft-full/current/sections/V04-4.6.html) - [三种机制力的统一口径:张度给方向、纹理给道路、旋纹给卡扣](https://cn.energyfilament.org/ai-kb/eft-full/current/sections/V04-4.7.html) - [强力(规则层):缺口回填](https://cn.energyfilament.org/ai-kb/eft-full/current/sections/V04-4.8.html) - [弱力(规则层):失稳重组](https://cn.energyfilament.org/ai-kb/eft-full/current/sections/V04-4.9.html) - [规则层 × 机制层:强弱如何与核力互锁协作](https://cn.energyfilament.org/ai-kb/eft-full/current/sections/V04-4.10.html) - [相互作用通道与门槛:为什么允许发生的事是离散集合](https://cn.energyfilament.org/ai-kb/eft-full/current/sections/V04-4.11.html) - [交换波团与过渡载荷:光子/胶子/WZ…作为通道施工队](https://cn.energyfilament.org/ai-kb/eft-full/current/sections/V04-4.12.html) - [局域性与接力:为什么不存在隔空施力](https://cn.energyfilament.org/ai-kb/eft-full/current/sections/V04-4.13.html) - [屏蔽、束缚与有效场:为什么宏观看起来像连续场方程](https://cn.energyfilament.org/ai-kb/eft-full/current/sections/V04-4.14.html) - [能量与动量账本:势能、辐射、做功的统一结算](https://cn.energyfilament.org/ai-kb/eft-full/current/sections/V04-4.15.html) - [边界工程:墙/孔/廊如何重塑场与传播](https://cn.energyfilament.org/ai-kb/eft-full/current/sections/V04-4.16.html) - [四力统一的 EFT 版本:三机制 + 两规则 + 一底板](https://cn.energyfilament.org/ai-kb/eft-full/current/sections/V04-4.17.html) - [张度账本下的等效原理(同一账本的两种读数)](https://cn.energyfilament.org/ai-kb/eft-full/current/sections/V04-4.18.html) - [EFT 如何接管规范场与对称性:把“形式公理”落回海况连续性与账本闭合](https://cn.energyfilament.org/ai-kb/eft-full/current/sections/V04-4.19.html) - [极端场与真空击穿:Schwinger 极限与“真空结构崩解”](https://cn.energyfilament.org/ai-kb/eft-full/current/sections/V04-4.20.html) - [精细结构常数 α:从“经验常数”到“海的本征响应率”](https://cn.energyfilament.org/ai-kb/eft-full/current/sections/V04-4.21.html) - [与主流框架对表:GR/QED/QCD/EW是计算语言,EFT 是机制底图](https://cn.energyfilament.org/ai-kb/eft-full/current/sections/V04-4.22.html) - [本卷小结:场是海况天气,力是坡度结算,强弱是规则层不可缺席](https://cn.energyfilament.org/ai-kb/eft-full/current/sections/V04-4.23.html) - [EFT 极简总览与本卷导言](https://cn.energyfilament.org/ai-kb/eft-full/current/sections/V05-5.0.html) - [量子到底是什么:先换底图,不先背公式](https://cn.energyfilament.org/ai-kb/eft-full/current/sections/V05-5.1.html) - [三处阈值三次离散:量子世界的总骨架](https://cn.energyfilament.org/ai-kb/eft-full/current/sections/V05-5.2.html) - [光电效应:一次吃下的闭合(吸收)阈值](https://cn.energyfilament.org/ai-kb/eft-full/current/sections/V05-5.3.html) - [康普顿散射:包络重组与动量账本](https://cn.energyfilament.org/ai-kb/eft-full/current/sections/V05-5.4.html) - [自发辐射:不是“随机掉光子”,而是锁态松脱与噪声底板](https://cn.energyfilament.org/ai-kb/eft-full/current/sections/V05-5.5.html) - [受激辐射与激光:相干骨架被工程化复制](https://cn.energyfilament.org/ai-kb/eft-full/current/sections/V05-5.6.html) - [波粒二象性:波与粒同根,只是两种读出模式](https://cn.energyfilament.org/ai-kb/eft-full/current/sections/V05-5.7.html) - [量子态:不是“神秘向量”,而是允许态/可行通道的集合](https://cn.energyfilament.org/ai-kb/eft-full/current/sections/V05-5.8.html) - [测量效应:测量不是旁观,是插桩改图](https://cn.energyfilament.org/ai-kb/eft-full/current/sections/V05-5.9.html) - [从海森堡测不准,到广义测不准](https://cn.energyfilament.org/ai-kb/eft-full/current/sections/V05-5.10.html) - [斯特恩–盖拉赫:自旋量子化外观为何强行离散](https://cn.energyfilament.org/ai-kb/eft-full/current/sections/V05-5.11.html) - [概率从哪来:统计读出是机制必然,不是哲学选择](https://cn.energyfilament.org/ai-kb/eft-full/current/sections/V05-5.12.html) - [波函数坍缩是什么:通道关闭与读出锁定](https://cn.energyfilament.org/ai-kb/eft-full/current/sections/V05-5.13.html) - [量子随机性:单端像盲盒,配对才显规则](https://cn.energyfilament.org/ai-kb/eft-full/current/sections/V05-5.14.html) - [量子隧穿:不是能量不够硬穿,是会呼吸的墙开了缝](https://cn.energyfilament.org/ai-kb/eft-full/current/sections/V05-5.15.html) - [退相干:相干骨架被环境磨损,经典世界因此出现](https://cn.energyfilament.org/ai-kb/eft-full/current/sections/V05-5.16.html) - [量子 Zeno / 反 Zeno:频繁插桩改变通道可达性](https://cn.energyfilament.org/ai-kb/eft-full/current/sections/V05-5.17.html) - [Casimir 与零点能:边界改写真空模态产生净力](https://cn.energyfilament.org/ai-kb/eft-full/current/sections/V05-5.18.html) - [玻色统计与 BEC:相位对齐的宏观锁态](https://cn.energyfilament.org/ai-kb/eft-full/current/sections/V05-5.19.html) - [费米统计与泡利排斥:原子轨道与物质稳定的硬支柱](https://cn.energyfilament.org/ai-kb/eft-full/current/sections/V05-5.20.html) - [超流:宏观量子涡旋与无粘流动](https://cn.energyfilament.org/ai-kb/eft-full/current/sections/V05-5.21.html) - [超导:相干对与能隙](https://cn.energyfilament.org/ai-kb/eft-full/current/sections/V05-5.22.html) - [约瑟夫森效应:相位差驱动的阈值读出](https://cn.energyfilament.org/ai-kb/eft-full/current/sections/V05-5.23.html) - [纠缠:同源规则](https://cn.energyfilament.org/ai-kb/eft-full/current/sections/V05-5.24.html) - [纠缠的张度走廊机制:把相关性落回“物理通路”](https://cn.energyfilament.org/ai-kb/eft-full/current/sections/V05-5.25.html) - [量子信息:纠缠、测量、退相干作为资源与成本](https://cn.energyfilament.org/ai-kb/eft-full/current/sections/V05-5.26.html) - [质能转换:解构注入与规则层改写](https://cn.energyfilament.org/ai-kb/eft-full/current/sections/V05-5.27.html) - [时间:不是背景河流,而是节拍读数](https://cn.energyfilament.org/ai-kb/eft-full/current/sections/V05-5.28.html) - [量子到经典:何时出现确定性、何时必须用概率](https://cn.energyfilament.org/ai-kb/eft-full/current/sections/V05-5.29.html) - [主流量子场论工具箱的材料学翻译:波函数/算符/路径积分/重整化](https://cn.energyfilament.org/ai-kb/eft-full/current/sections/V05-5.30.html) - [本卷小结:量子世界 = 阈值离散 + 环境写入 + 接力局域 + 统计读出](https://cn.energyfilament.org/ai-kb/eft-full/current/sections/V05-5.31.html) - [EFT 极简总览与本卷导言](https://cn.energyfilament.org/ai-kb/eft-full/current/sections/V06-6.0.html) - [参与式观察:我们永远在宇宙内部读宇宙](https://cn.energyfilament.org/ai-kb/eft-full/current/sections/V06-6.1.html) - [著名宇宙难题为什么会成簇:不是异常清单,而是旧宇宙观的应激反应](https://cn.energyfilament.org/ai-kb/eft-full/current/sections/V06-6.2.html) - [CMB与视界一致性:我们读到的“底片”,为何不必自动指向暴涨](https://cn.energyfilament.org/ai-kb/eft-full/current/sections/V06-6.3.html) - [冷斑、半球不对称与低阶对齐:方向性残差为何不必先被当成统计怪脾气](https://cn.energyfilament.org/ai-kb/eft-full/current/sections/V06-6.4.html) - [早期黑洞、类星体与偏振成组:当“太早、太亮、太整齐”成为工况指纹](https://cn.energyfilament.org/ai-kb/eft-full/current/sections/V06-6.5.html) - [锂-7 与反物质:当早期化学账本被现代基准误译](https://cn.energyfilament.org/ai-kb/eft-full/current/sections/V06-6.6.html) - [暗物质范式的最小承诺:它必须同时解释动力学、透镜与结构形成](https://cn.energyfilament.org/ai-kb/eft-full/current/sections/V06-6.7.html) - [旋转曲线与两条紧关系:额外牵引如何从统计坡面长出来](https://cn.energyfilament.org/ai-kb/eft-full/current/sections/V06-6.8.html) - [引力透镜:动力学与成像必须由同一张底图解释](https://cn.energyfilament.org/ai-kb/eft-full/current/sections/V06-6.9.html) - [宇宙射电背景与非热辐射:短寿世界的双面效应](https://cn.energyfilament.org/ai-kb/eft-full/current/sections/V06-6.10.html) - [团簇并合:四现象联动与“先噪后力”](https://cn.energyfilament.org/ai-kb/eft-full/current/sections/V06-6.11.html) - [宇宙结构如何长成:漩纹造盘,直纹造网](https://cn.energyfilament.org/ai-kb/eft-full/current/sections/V06-6.12.html) - [宇宙膨胀学的三根支柱:我们到底在挑战什么](https://cn.energyfilament.org/ai-kb/eft-full/current/sections/V06-6.13.html) - [红移主轴:TPR读年代,不读空间被拉长](https://cn.energyfilament.org/ai-kb/eft-full/current/sections/V06-6.14.html) - [为什么 TPR 不是“疲劳光”:端点定标与路径损耗不是一回事](https://cn.energyfilament.org/ai-kb/eft-full/current/sections/V06-6.15.html) - [近邻红移失配:源端张度差,而不是路径魔法](https://cn.energyfilament.org/ai-kb/eft-full/current/sections/V06-6.16.html) - [红移空间畸变:视线速度组织效应,而不是膨胀速度场的专利](https://cn.energyfilament.org/ai-kb/eft-full/current/sections/V06-6.17.html) - [超新星“加速”外观:把标准烛从纯几何尺改写为定标读数](https://cn.energyfilament.org/ai-kb/eft-full/current/sections/V06-6.18.html) - [尺与钟同源:宇宙学不是外部尺量学(兼论宇宙数字的重新审视)](https://cn.energyfilament.org/ai-kb/eft-full/current/sections/V06-6.19.html) - [宇宙演化的时空线索:十条证据指向同一种认知升级](https://cn.energyfilament.org/ai-kb/eft-full/current/sections/V06-6.20.html) - [本卷小结:用递进式方式挑战宇宙膨胀学](https://cn.energyfilament.org/ai-kb/eft-full/current/sections/V06-6.21.html) - [EFT 极简总览与本卷导言](https://cn.energyfilament.org/ai-kb/eft-full/current/sections/V07-7.0.html) - [为什么宇宙极端是理论质量的最终压力测试](https://cn.energyfilament.org/ai-kb/eft-full/current/sections/V07-7.1.html) - [黑洞的地位:结构发动机、本体极端与母体候选](https://cn.energyfilament.org/ai-kb/eft-full/current/sections/V07-7.2.html) - [黑洞在宏观结构里的双重身份:极紧锚点 + 旋纹发动机](https://cn.energyfilament.org/ai-kb/eft-full/current/sections/V07-7.3.html) - [漩纹造盘:星系盘、旋臂、条带与喷流轴如何被写出](https://cn.energyfilament.org/ai-kb/eft-full/current/sections/V07-7.4.html) - [直纹造网:节点、丝桥、空洞与大尺度骨架如何长成](https://cn.energyfilament.org/ai-kb/eft-full/current/sections/V07-7.5.html) - [黑洞定节拍:星系时间流向、供给节奏与局部钟差](https://cn.energyfilament.org/ai-kb/eft-full/current/sections/V07-7.6.html) - [结构反馈:为什么黑洞不是结果,而是持续塑形器](https://cn.energyfilament.org/ai-kb/eft-full/current/sections/V07-7.7.html) - [黑洞是什么:我们看见了什么、怎么分类、难在哪儿](https://cn.energyfilament.org/ai-kb/eft-full/current/sections/V07-7.8.html) - [外临界 / TWall:只进不出的速度临界与张度墙](https://cn.energyfilament.org/ai-kb/eft-full/current/sections/V07-7.9.html) - [内临界带:粒子相与丝海相的分水岭](https://cn.energyfilament.org/ai-kb/eft-full/current/sections/V07-7.10.html) - [四层结构总图:毛孔皮、活塞层、粉碎带、锅汤核](https://cn.energyfilament.org/ai-kb/eft-full/current/sections/V07-7.11.html) - [皮层如何显影与发声:环、偏振、共同时延与节拍尾迹](https://cn.energyfilament.org/ai-kb/eft-full/current/sections/V07-7.12.html) - [能量如何出逃:毛孔、轴向穿孔、边缘减临界](https://cn.energyfilament.org/ai-kb/eft-full/current/sections/V07-7.13.html) - [尺度效应:小黑洞“急”、大黑洞“稳”](https://cn.energyfilament.org/ai-kb/eft-full/current/sections/V07-7.14.html) - [与现代几何叙事对表:GR(广义相对论)哪里同解,EFT 哪里增补](https://cn.energyfilament.org/ai-kb/eft-full/current/sections/V07-7.15.html) - [证据工程:怎么验证、看哪些指纹、各读数分别在区分什么](https://cn.energyfilament.org/ai-kb/eft-full/current/sections/V07-7.16.html) - [黑洞命运:阶段、门槛、局部退场与不默认归洞重启](https://cn.energyfilament.org/ai-kb/eft-full/current/sections/V07-7.17.html) - [静洞是什么:高山泡泡、负反馈与比黑洞更黑的黑](https://cn.energyfilament.org/ai-kb/eft-full/current/sections/V07-7.18.html) - [静洞为何能稳住:高速自旋、外壳临界带与“越吐越空”](https://cn.energyfilament.org/ai-kb/eft-full/current/sections/V07-7.19.html) - [静洞如何显影:发散透镜、动力学静音与节拍反号](https://cn.energyfilament.org/ai-kb/eft-full/current/sections/V07-7.20.html) - [黑洞与静洞:深谷与高山、会聚镜与发散镜](https://cn.energyfilament.org/ai-kb/eft-full/current/sections/V07-7.21.html) - [静洞证据工程:如何找,如何不误认](https://cn.energyfilament.org/ai-kb/eft-full/current/sections/V07-7.22.html) - [宇宙边界是什么:海岸线,不是砖墙](https://cn.energyfilament.org/ai-kb/eft-full/current/sections/V07-7.23.html) - [边界如何显影:方向性残差、传播上限与远区保真退化](https://cn.energyfilament.org/ai-kb/eft-full/current/sections/V07-7.24.html) - [母体黑洞:起源不是奇点爆炸,而是极端退场候选](https://cn.energyfilament.org/ai-kb/eft-full/current/sections/V07-7.25.html) - [宇宙未来:不是越涨越空,而是越松越难建造、越难保真](https://cn.energyfilament.org/ai-kb/eft-full/current/sections/V07-7.26.html) - [人造极限:LHC、强场真空与边界器件,为什么也是“微型极端宇宙”](https://cn.energyfilament.org/ai-kb/eft-full/current/sections/V07-7.27.html) - [本卷小结:黑洞主轴 + 静洞 / 边界品牌预言 + 母体黑洞 / 未来收束](https://cn.energyfilament.org/ai-kb/eft-full/current/sections/V07-7.28.html) - [EFT 极简总览与本卷导言](https://cn.energyfilament.org/ai-kb/eft-full/current/sections/V08-8.0.html) - [本章导言:什么叫支持、什么叫伤筋动骨、什么叫还不能判](https://cn.energyfilament.org/ai-kb/eft-full/current/sections/V08-8.1.html) - [证据分级:从一致性线索到终局判决](https://cn.energyfilament.org/ai-kb/eft-full/current/sections/V08-8.2.html) - [终极判决实验总表:先把战书写出来](https://cn.energyfilament.org/ai-kb/eft-full/current/sections/V08-8.3.html) - [跨探针“无色散公共项”:红移与时延的第一判决线](https://cn.energyfilament.org/ai-kb/eft-full/current/sections/V08-8.4.html) - [红移联合判决:TPR、距离校准链与局部残差的分组审计](https://cn.energyfilament.org/ai-kb/eft-full/current/sections/V08-8.5.html) - [一图多用共底图裁决:旋转曲线、透镜与并合能否共用同一张底图](https://cn.energyfilament.org/ai-kb/eft-full/current/sections/V08-8.6.html) - [结构发生学判决:喷流、骨架、偏振与早期大质量对象能否写成同一条生长线](https://cn.energyfilament.org/ai-kb/eft-full/current/sections/V08-8.7.html) - [底片与环境层析总审:CMB、冷区 / 热点、21 cm 与底噪平台能否闭成同一张底片](https://cn.energyfilament.org/ai-kb/eft-full/current/sections/V08-8.8.html) - [近视界与极端宇宙总审:影子、偏振、时间结构与品牌指纹能否闭成同一张极端海图](https://cn.energyfilament.org/ai-kb/eft-full/current/sections/V08-8.9.html) - [实验室极限总审:Casimir、Josephson、强场真空与边界器件能否闭成同一条工艺链](https://cn.energyfilament.org/ai-kb/eft-full/current/sections/V08-8.10.html) - [量子护栏总审:隧穿、退相干、纠缠与不可通信能否守住同一条因果红线](https://cn.energyfilament.org/ai-kb/eft-full/current/sections/V08-8.11.html) - [留出集、盲化、空检与跨管线复验:如何让 EFT 不是“会讲故事的理论”](https://cn.energyfilament.org/ai-kb/eft-full/current/sections/V08-8.12.html) - [什么结果会直接支持 EFT,什么结果会直接伤筋动骨](https://cn.energyfilament.org/ai-kb/eft-full/current/sections/V08-8.13.html) - [本章小结:EFT 必须先学会被打,再谈取代谁](https://cn.energyfilament.org/ai-kb/eft-full/current/sections/V08-8.14.html) - [EFT 极简总览与本卷导言](https://cn.energyfilament.org/ai-kb/eft-full/current/sections/V09-9.0.html) - [公平对比评估框架:先定义什么叫“解释力更强”](https://cn.energyfilament.org/ai-kb/eft-full/current/sections/V09-9.1.html) - [致敬与交接:为什么主流会走到今天,EFT 为什么现在才有资格接手](https://cn.energyfilament.org/ai-kb/eft-full/current/sections/V09-9.2.html) - [历史分界桥:从被放弃的“静海”到可演化的能量海底板](https://cn.energyfilament.org/ai-kb/eft-full/current/sections/V09-9.3.html) - [宇宙学原理的强版本:齐次/各向同性能否继续当硬公设](https://cn.energyfilament.org/ai-kb/eft-full/current/sections/V09-9.4.html) - [大爆炸单一起源与暴涨:何时是有效剧本,何时被误当成本体](https://cn.energyfilament.org/ai-kb/eft-full/current/sections/V09-9.5.html) - [红移的度规膨胀唯一解释权:交还给 TPR 主轴与校准链](https://cn.energyfilament.org/ai-kb/eft-full/current/sections/V09-9.6.html) - [暗能量与宇宙学常数:从龙头本体降级为临时记账参数](https://cn.energyfilament.org/ai-kb/eft-full/current/sections/V09-9.7.html) - [CMB 标准起源与 BBN 唯一指纹:从唯一历史缩成一段历史](https://cn.energyfilament.org/ai-kb/eft-full/current/sections/V09-9.8.html) - [ΛCDM:为什么它仍可继续算,但不能继续统治解释](https://cn.energyfilament.org/ai-kb/eft-full/current/sections/V09-9.9.html) - [引力=时空弯曲的唯一图景?EFT 为什么只接受它当翻译,不接受它当独裁本体](https://cn.energyfilament.org/ai-kb/eft-full/current/sections/V09-9.10.html) - [等效原理、强光锥与绝对视界:哪些该降级,哪些该重写](https://cn.energyfilament.org/ai-kb/eft-full/current/sections/V09-9.11.html) - [暗物质粒子范式:为什么该退位,但不必被粗暴嘲笑](https://cn.energyfilament.org/ai-kb/eft-full/current/sections/V09-9.12.html) - [自然常数绝对性、光子绝对性与 α 的地位:从天条降级为读数](https://cn.energyfilament.org/ai-kb/eft-full/current/sections/V09-9.13.html) - [对称性范式、统计根源、四力独立与希格斯赋质量:哪些该退,哪些该翻译](https://cn.energyfilament.org/ai-kb/eft-full/current/sections/V09-9.14.html) - [量子本体、测量公设与热统假设:把公设神话降级为阈值与噪声](https://cn.energyfilament.org/ai-kb/eft-full/current/sections/V09-9.15.html) - [EFT - 主流概念对译图谱:以后读任何论文,都知道它在说哪层语言](https://cn.energyfilament.org/ai-kb/eft-full/current/sections/V09-9.16.html) - [工程与未来科技启示:如果 EFT 对,我们将如何重新设计实验、器件与观测](https://cn.energyfilament.org/ai-kb/eft-full/current/sections/V09-9.17.html) - [本章小结:主流仍可继续算,但 EFT 接管了解释权](https://cn.energyfilament.org/ai-kb/eft-full/current/sections/V09-9.18.html) - [P1_RC_GGL:旋转曲线—弱透镜闭合主干](https://cn.energyfilament.org/ai-kb/eft-full/current/sections/V30-30.1.html) - [02_BTFR:群体标度律窗口](https://cn.energyfilament.org/ai-kb/eft-full/current/sections/V30-30.2.html) - [03_SNela:Hubble 图红移主轴](https://cn.energyfilament.org/ai-kb/eft-full/current/sections/V30-30.3.html) - [04_BBN:早期化学账本窗口](https://cn.energyfilament.org/ai-kb/eft-full/current/sections/V30-30.4.html) - [05_CMB_phase_damp:峰位—阻尼尾窗口](https://cn.energyfilament.org/ai-kb/eft-full/current/sections/V30-30.5.html) - [06_RSD_fs8:结构增长率窗口](https://cn.energyfilament.org/ai-kb/eft-full/current/sections/V30-30.6.html) - [02_BAO:标准尺窗口](https://cn.energyfilament.org/ai-kb/eft-full/current/sections/V30-30.7.html) - [09_Geom_Consistency:几何一致性审计](https://cn.energyfilament.org/ai-kb/eft-full/current/sections/V30-30.8.html) - [04_ClusterLensMass:团簇尺度延伸](https://cn.energyfilament.org/ai-kb/eft-full/current/sections/V30-30.9.html) - [08_ISWxLSS:晚期势衰减占位节](https://cn.energyfilament.org/ai-kb/eft-full/current/sections/V30-30.10.html) - [903_RotCurve:单星系案例盒](https://cn.energyfilament.org/ai-kb/eft-full/current/sections/V30-30.11.html) - [公开默认评估模板与主流对比路由](https://cn.energyfilament.org/ai-kb/eft-full/current/sections/V31-31.1.html) - [卷首:定位、边界与使用方式](https://cn.energyfilament.org/ai-kb/eft-full/current/sections/V32-32.0.html) - [微观粒子视觉包](https://cn.energyfilament.org/ai-kb/eft-full/current/sections/V32-32.1.html) - [光与传播视觉包](https://cn.energyfilament.org/ai-kb/eft-full/current/sections/V32-32.2.html) - [黑洞公共接口与走廊包](https://cn.energyfilament.org/ai-kb/eft-full/current/sections/V32-32.3.html) - [场作为海况的视觉与护栏包](https://cn.energyfilament.org/ai-kb/eft-full/current/sections/V32-32.4.html) - [力作为坡度/账本的质疑与护栏包](https://cn.energyfilament.org/ai-kb/eft-full/current/sections/V32-32.5.html) - [量子前门:双缝、测量与纠缠](https://cn.energyfilament.org/ai-kb/eft-full/current/sections/V32-32.6.html) - [量子工程:隧穿、相干、器件与形式翻译](https://cn.energyfilament.org/ai-kb/eft-full/current/sections/V32-32.7.html) - [宇宙学前门:动态宇宙、红移与温标](https://cn.energyfilament.org/ai-kb/eft-full/current/sections/V32-32.8.html) - [宇宙学极端窗口:边界、静洞、起源与终局](https://cn.energyfilament.org/ai-kb/eft-full/current/sections/V32-32.9.html) - [跨季护栏总线与 rare core-delta watchlist](https://cn.energyfilament.org/ai-kb/eft-full/current/sections/V32-32.10.html) - [卷尾路由:claim layer、canonical bridge 与使用说明](https://cn.energyfilament.org/ai-kb/eft-full/current/sections/V32-32.11.html) - [路径“无色散公共项”跨探针共证](https://cn.energyfilament.org/ai-kb/eft-full/current/sections/V33-33.1.html) - [强透镜时间延迟“势项”环境前馈检验](https://cn.energyfilament.org/ai-kb/eft-full/current/sections/V33-33.2.html) - [同源多谱线“整体平移、比值不变”的源端定标](https://cn.energyfilament.org/ai-kb/eft-full/current/sections/V33-33.3.html) - [旋转曲线—弱透镜一致闭合(暗底座/张度坡,无需对象化暗晕谱)](https://cn.energyfilament.org/ai-kb/eft-full/current/sections/V33-33.4.html) - [ARCADE-2 无线电背景的“底噪平台”判别(源并合极限与各向异性抑制)](https://cn.energyfilament.org/ai-kb/eft-full/current/sections/V33-33.5.html) - [CMB μ_CMB / y_CMB 微畸变的“解构注入”量级与形态(注入窗—模板—下限平台)](https://cn.energyfilament.org/ai-kb/eft-full/current/sections/V33-33.6.html) - [黑洞近环“共同时延+极化翻转带”的同位缩放](https://cn.energyfilament.org/ai-kb/eft-full/current/sections/V33-33.7.html) - [AGN 喷流“轴向穿孔”与宇宙丝骨架共线(骨架化取向统计)](https://cn.energyfilament.org/ai-kb/eft-full/current/sections/V33-33.8.html) - [强透镜通量比与奇像率的“平滑统计场”解释(暗底座/环境层的可仲裁指纹)](https://cn.energyfilament.org/ai-kb/eft-full/current/sections/V33-33.9.html) - [量子隧穿的间歇通道统计指纹(等待时间重尾+Fano 因子+零时滞同现)](https://cn.energyfilament.org/ai-kb/eft-full/current/sections/V33-33.10.html) - [动态 Casimir 的门槛离散与阈后非线性(墙速—产额—谱形链式改写)](https://cn.energyfilament.org/ai-kb/eft-full/current/sections/V33-33.11.html) - [腔 QED 的“真空可工程化”发射—吸收协同(边界先行与公共项闭合)](https://cn.energyfilament.org/ai-kb/eft-full/current/sections/V33-33.12.html) - [近邻红移失配的端点—路径分解(TPR 主导的源端张度差环境序列)](https://cn.energyfilament.org/ai-kb/eft-full/current/sections/V33-33.13.html) - [CMB 冷斑视线的“路径红移”旁证(TPR/PER 分解与一图多用闭合)](https://cn.energyfilament.org/ai-kb/eft-full/current/sections/V33-33.14.html) - [类星体偏振成组对齐的“丝网取向协同”(骨架方向场的可复验预测)](https://cn.energyfilament.org/ai-kb/eft-full/current/sections/V33-33.15.html) - [高红移大质量黑洞“高供给+慢泄漏”并存(蓄压—迟泄的环境前馈检验)](https://cn.energyfilament.org/ai-kb/eft-full/current/sections/V33-33.16.html) - [卫星星系共转平面与宿主丝主轴共线](https://cn.energyfilament.org/ai-kb/eft-full/current/sections/V33-33.17.html) - [LHC 喷注“通道内相干”随拥塞度更新量(加入旋纹/纹理通道的粒子层代理)](https://cn.energyfilament.org/ai-kb/eft-full/current/sections/V33-33.18.html) - [约瑟夫森结“张度墙呼吸”的原位成像(边界先行与门槛离散)](https://cn.energyfilament.org/ai-kb/eft-full/current/sections/V33-33.19.html) - [太阳系尺度“同源多路径”公共项掠日序列](https://cn.energyfilament.org/ai-kb/eft-full/current/sections/V33-33.20.html) - [强透镜鞍点像“消融过剩”统计(奇偶偏置的环境前馈与稳态无色散)](https://cn.energyfilament.org/ai-kb/eft-full/current/sections/V33-33.21.html) - [喷流基座亮度—极化的同位同窗变化(零时滞指数与去旋稳健)](https://cn.energyfilament.org/ai-kb/eft-full/current/sections/V33-33.22.html) - [21 cm 强度映射的“公共项—环境相关”四维层析(像素—红移—环境—公共项)](https://cn.energyfilament.org/ai-kb/eft-full/current/sections/V33-33.23.html) - [单一外参时尺下的环境走廊传播差分检验(公共项上限)](https://cn.energyfilament.org/ai-kb/eft-full/current/sections/V33-33.24.html) - [实验室 Schwinger 极限稳态跨越与“无媒性”](https://cn.energyfilament.org/ai-kb/eft-full/current/sections/V33-33.25.html) - [近视界动态层化的“断层—孔隙”双结构(环宽呼吸与方位锁相)](https://cn.energyfilament.org/ai-kb/eft-full/current/sections/V33-33.26.html) - [宇宙尺度“路径红移”四维层析(天区 × 红移 × 环境 × 公共项)](https://cn.energyfilament.org/ai-kb/eft-full/current/sections/V33-33.27.html) - [超长基线纠缠的环境退相干极限](https://cn.energyfilament.org/ai-kb/eft-full/current/sections/V33-33.28.html) - [精准 CMB 微畸变“时演史”与持续底噪检验](https://cn.energyfilament.org/ai-kb/eft-full/current/sections/V33-33.29.html) - [真空“张度墙”类比平台全参相图](https://cn.energyfilament.org/ai-kb/eft-full/current/sections/V33-33.30.html) - [早期宇宙“去暴涨”视界一致性直接证据](https://cn.energyfilament.org/ai-kb/eft-full/current/sections/V33-33.31.html) - 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