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2024年12月12日，“搜索是智能体分发的最大入口，”李彦宏举例说，高考后，有大量考生填报志愿，需要选学校和专业，会遇到各种问题，这时，百度的高考智能体就可回答考生的各种疑问，“高峰时期，百度的高考智能体每天要回答超过200万个考生问题，总共只有1000万考生，说明一天当中有大比例的人在利用这个智能体。”

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《科学》（20211210出版）一周论文导读2021-12-12 19:58·科学网编译 | 未玖Science, 10 DECEMBER 2021, VOL 374, ISSUE 6573《科学》2021年12月10日第374卷6573期物理学PhysicsDiscovery of segmented Fermi surface induced by Cooper pair momentum库珀对动量导致的分段费米面▲ 作者：ZHEN ZHU, MICHA? PAPAJ, XIAO-ANG NIE, HAO-KE XU, YI-SHENG GU, XU YANG, ET AL.▲ 链接：https://www.science.org/doi/10.1126/science.abf1077▲ 摘要一个足够大的超导电流可通过有限库珀对动量引起的准粒子能量的多普勒频移来关闭超导体中的能隙并产生无能隙准粒子在这种无能隙超导状态下零能量准粒子位于正常态费米面的某一段上而剩余的费米面仍然有能隙在超导体二硒化铌（NbSe2）临近效应下研究组利用准粒子干涉对碲化铋（Bi2Te3）薄膜磁场控制的费米面进行成像较小的水平磁场诱导一个屏蔽超电流导致Bi2Te3拓扑表面态的有限动量配对研究组确定了不同的干涉模式证明了分段费米面的无能隙超导状态该结果揭示了有限库珀对动量对准粒子谱的强烈影响▲ AbstractA sufficiently large supercurrent can close the energy gap in a superconductor and create gapless quasiparticles through the Doppler shift of quasiparticle energy caused by finite Cooper pair momentum. In this gapless superconducting state, zero-energy quasiparticles reside on a segment of the normal-state Fermi surface, whereas the remaining Fermi surface is still gapped. We use quasiparticle interference to image the field-controlled Fermi surface of bismuth telluride (Bi2Te3) thin films under proximity effect from the superconductor niobium diselenide (NbSe2). A small applied in-plane magnetic field induces a screening supercurrent, which leads to finite-momentum pairing on the topological surface states of Bi2Te3. We identify distinct interference patterns that indicate a gapless superconducting state with a segmented Fermi surface. Our results reveal the strong impact of finite Cooper pair momentum on the quasiparticle spectrum.Time-of-flight 3D imaging through multimode optical fibers多模光纤飞行时间3D成像▲ 作者：DAAN STELLINGA, DAVID B. PHILLIPS, SIMON PETER MEKHAIL, ADAM SELYEM, SERGEY TURTAEV, TOM?? ?I?M?R, ET AL.▲ 链接：https://www.science.org/doi/10.1126/science.abl3771▲ 摘要飞行时间三维（3D）成像的应用范围从工业检测覆盖到运动跟踪通过测量激光脉冲的往返飞行时间来复原深度通常使用直径几厘米的收集光学器件研究组演示了通过总孔径为几百微米的多模光纤进行近视频速率的三维成像使用与脉冲源同步的波前整形实现像差校正并以每秒23000点的速度扫描场景研究组以大约5赫兹的帧率对直径50微米、约40厘米长的光纤末端几米以外的移动物体进行成像该工作为超薄显微内窥镜提供了远场深度分辨能力有望应用于临床和远程检查场景▲ AbstractTime-of-flight three-dimensional (3D) imaging has applications that range from industrial inspection to motion tracking. Depth is recovered by measuring the round-trip flight time of laser pulses, typically using collection optics of several centimeters in diameter. We demonstrate near–video-rate 3D imaging through multimode fibers with a total aperture of several hundred micrometers. We implement aberration correction using wavefront shaping synchronized with a pulsed source and scan the scene at ~23,000 points per second. We image moving objects several meters beyond the end of an ~40-centimeters-long fiber of 50-micrometer core diameter at frame rates of ~5 hertz. Our work grants far-field depth-resolving capabilities to ultrathin microendoscopes, which we expect to have applications to clinical and remote inspection scenarios.人工智能Artificial IntelligencePushing the frontiers of density functionals by solving the fractional electron problem解决分数电子问题推动密度泛函进展▲ 作者：JAMES KIRKPATRICK, BRENDAN MCMORROW, DAVID H. P. TURBAN, ALEXANDER L. GAUNT, JAMES S. SPENCER, ALEXANDER G. D. G. MATTHEWS, ET AL.▲ 链接：https://www.science.org/doi/10.1126/science.abj6511▲ 摘要密度泛函理论在量子层面上描述物质但所有流行的近似理论都会因违反精确泛函的数学性质而产生系统误差研究组通过在分子数据和带有分数电荷和自旋的虚拟系统上训练神经网络克服了这一基本限制由此产生的泛函DM21（DeepMind 21）正确地描述了人工电荷离域和强关联的典型示例在主基团原子和分子的全面基准测试中其表现优于传统泛函DM21精确地模拟了复杂系统如氢链、带电DNA碱基对和双自由基过渡态对该领域而言更重要的是由于该方法依赖于不断改进的数据和约束条件因此它代表了一条通向精确通用泛函的可行途径▲ AbstractDensity functional theory describes matter at the quantum level, but all popular approximations suffer from systematic errors that arise from the violation of mathematical properties of the exact functional. We overcame this fundamental limitation by training a neural network on molecular data and on fictitious systems with fractional charge and spin. The resulting functional, DM21 (DeepMind 21), correctly describes typical examples of artificial charge delocalization and strong correlation and performs better than traditional functionals on thorough benchmarks for main-group atoms and molecules. DM21 accurately models complex systems such as hydrogen chains, charged DNA base pairs, and diradical transition states. More crucially for the field, because our methodology relies on data and constraints, which are continually improving, it represents a viable pathway toward the exact universal functional.材料科学Materials ScienceElemental electrical switch enabling phase segregation–free operation单元素电子开关实现无相分离操作▲ 作者：JIABIN SHEN, SHUJING JIA, NANNAN SHI, QINGQIN GE, TAMIHIRO GOTOH, SHILONG LV, ET AL.▲ 链接：https://www.science.org/doi/10.1126/science.abi6332▲ 摘要非易失性相变存储器已成功商业化但若想进一步将密度缩放到10纳米以下则存储单元和相关垂直堆叠的双端接入开关需要在成分和结构上更均质的材料选择开关大多为非晶硫系双向阈值开关（OTS）在非晶态下运行的非线性电流响应高于阈值电压然而它们目前被所使用的四价或更多价硫属化合物成分所引入的化学复杂性所影响研究组提出了一种单元素碲（Te）易失性开关具有较大的驱动电流密度（≥11兆安/平方厘米）的约103开/关电流比开关速度快于20纳秒低关断电流源于Te-电极界面存在大约0.95电子伏肖特基势垒而纯Te的瞬态电压脉冲诱导的晶-液熔融转变导致高开断电流该研究发现的单元素电子开关可能有助于实现更密集的存储芯片▲ AbstractNonvolatile phase-change memory has been successfully commercialized, but further density scaling below 10 nanometers requires compositionally and structurally homogeneous materials for both the memory cell and the associated vertically stacked two-terminal access switch. The selector switches are mostly amorphous-chalcogenide Ovonic threshold switches (OTSs), operating with a nonlinear current response above a threshold voltage in the amorphous state. However, they currently suffer from the chemical complexity introduced by the quaternary or even more diverse chalcogenide compositions used. We present a single-element tellurium (Te) volatile switch with a large (≥11 megaamperes per square centimeter) drive current density, ~103 ON/OFF current ratio, and faster than 20 nanosecond switching speed. The low OFF current arises from the existence of a ~0.95–electron volt Schottky barrier at the Te–electrode interface, whereas a transient, voltage pulse–induced crystal-liquid melting transition of the pure Te leads to a high ON current. Our discovery of a single-element electrical switch may help realize denser memory chips.Detection of graphene’s divergent orbital diamagnetism at the Dirac point在狄拉克点探测石墨烯的轨道抗磁性▲ 作者：J. VALLEJO BUSTAMANTE, N. J. WU, C. FERMON, M. PANNETIER-LECOEUR, T. WAKAMURA, K. WATANABE, ET AL.▲ 链接：https://www.science.org/doi/10.1126/science.abf9396▲ 摘要石墨烯的电子性质在过去十年间得到了广泛研究然而未掺杂石墨烯的奇异轨道磁性即石墨烯电子波函数特征贝里相的基本特性在单层中的测量一直颇具挑战性使用高灵敏度巨磁电阻（GMR）传感器研究组测量了封装在氮化硼晶体之间的单层石墨烯的栅极电压依赖磁化强度该信号在狄拉克点显示出一个抗磁峰其磁场和温度依赖性与长期以来的理论预测一致该研究提供了一种新方法用于监测贝里相位奇点以及探索库仑相互作用、应变或莫尔势综合效应产生的相关态▲ AbstractThe electronic properties of graphene have been intensively investigated over the past decade. However, the singular orbital magnetism of undoped graphene, a fundamental signature of the characteristic Berry phase of graphene’s electronic wave functions, has been challenging to measure in a single flake. Using a highly sensitive giant magnetoresistance (GMR) sensor, we have measured the gate voltage–dependent magnetization of a single graphene monolayer encapsulated between boron nitride crystals. The signal exhibits a diamagnetic peak at the Dirac point whose magnetic field and temperature dependences agree with long-standing theoretical predictions. Our measurements offer a means to monitor Berry phase singularities and explore correlated states generated by the combined effects of Coulomb interactions, strain, or moiré potentials.地球科学Earth ScienceMultidimensional tropical forest recovery多维热带森林恢复▲ 作者：LOURENS POORTER, DYLAN CRAVEN, CATARINA C. JAKOVAC, MASHA T. VAN DER SANDE, LUCY AMISSAH, FRANS BONGERS, ET AL.▲ 链接：https://www.science.org/doi/10.1126/science.abh3629▲ 摘要由于森林砍伐热带森林迅速消失但它们有望在废弃土地上自然再生研究组分析了12个森林属性在次生演替过程中如何恢复以及它们的恢复如何通过热带地区的77个次生林相互关联热带森林对低强度土地利用具有很强的恢复力；20年后森林属性达到其原本成长值的78%（33-100%）土壤（<10年）和植物功能（<25年）最快恢复到原本成长值的90%结构和物种多样性（25-60年）恢复速度居中生物量和物种组成恢复最慢（>120年）网络分析显示了三个独立的属性恢复集群分别与结构、物种多样性和物种组成有关研究结果表明次生林应被视为一种低成本的自然解决途径以恢复生态系统、缓解气候变化和保护生物多样性▲ AbstractTropical forests disappear rapidly because of deforestation, yet they have the potential to regrow naturally on abandoned lands. We analyze how 12 forest attributes recover during secondary succession and how their recovery is interrelated using 77 sites across the tropics. Tropical forests are highly resilient to low-intensity land use; after 20 years, forest attributes attain 78% (33 to 100%) of their old-growth values. Recovery to 90% of old-growth values is fastest for soil (<1 decade) and plant functioning (<2.5 decades), intermediate for structure and species diversity (2.5 to 6 decades), and slowest for biomass and species composition (>12 decades). Network analysis shows three independent clusters of attribute recovery, related to structure, species diversity, and species composition. Secondary forests should be embraced as a low-cost, natural solution for ecosystem restoration, climate change mitigation, and biodiversity conservation.

步行者用49号签选中了来自康涅狄格大学的特里斯滕-纽顿。贾府内部家风糜烂，腐朽不堪，因而就算是再清高骄傲的林黛玉，她也要向生活低头。

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青(Qing)岛(Dao)日(Ri)报(Bao)社(She)/观(Guan)海(Hai)新(Xin)闻(Wen)7月(Yue)4日(Ri)讯(Xun) 7月(Yue)6日(Ri)，陈(Chen)晓(Xiao)卿(Qing)将(Jiang)携(Xie)其(Qi)团(Tuan)队(Dui)的(De)新(Xin)书(Shu)《风(Feng)味(Wei)人(Ren)间(Jian) 谷(Gu)物(Wu)星(Xing)球(Qiu)》来(Lai)到(Dao)青(Qing)岛(Dao)，举(Ju)办(Ban)“谷(Gu)物(Wu)藏(Cang)万(Wan)象(Xiang) 风(Feng)味(Wei)话(Hua)人(Ren)间(Jian)”的(De)新(Xin)书(Shu)分(Fen)享(Xiang)会(Hui)，与(Yu)《风(Feng)味(Wei)人(Ren)间(Jian)》的(De)粉(Fen)丝(Si)和(He)广(Guang)大(Da)读(Du)者(Zhe)相(Xiang)聚(Ju)于(Yu)青(Qing)岛(Dao)万(Wan)象(Xiang)城(Cheng)和(He)青(Qing)岛(Dao)新(Xin)华(Hua)书(Shu)店(Dian)书(Shu)城(Cheng)，分(Fen)享(Xiang)《风(Feng)味(Wei)人(Ren)间(Jian) 谷(Gu)物(Wu)星(Xing)球(Qiu)》的(De)创(Chuang)作(Zuo)历(Li)程(Cheng)，寻(Xun)味(Wei)青(Qing)岛(Dao)的(De)山(Shan)海(Hai)珍(Zhen)食(Shi)与(Yu)书(Shu)香(Xiang)。

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每种食物都有其独特的营养成分和健康益处了解这些可以帮助我们更好地制定饮食计划不仅仅是为了降低胆固醇更是为了全面的健康

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