- 光纤准直器(Fiber Collimators)
- 标准具(Etalons)
- Babinet-Soleil补偿器(Babinet–Soleil Compensators)
- CIE标准施照体(CIE Standard Illuminants)
- GT干涉仪(Gires–Tournois Interferometers)
- Kuizenga–Siegman理论(Kuizenga–Siegman Theory)
- OEM激光器模块(OEM Laser Modules)
- P–I–N光电二极管(p–i–n Photodiodes)
- Q开关不稳定性(Q-switching Instabilities)
- Q开关(Q Switching)
- Q激光器(Q-switched Lasers)
- Sellmeier公式(Sellmeier Formula)
- Sisyphus冷却(Sisyphus Cooling)
- V值(V Number)
- X射线激光器(X-ray lasers)
- YLF激光器(YLF Lasers)
- 三包层光纤(Triple-clad Fibers)
- 三原色光源(RGB Sources)
- 三角测量(Triangulation)
- 三阶色散(Third-order Dispersion)
- 上转换激光器(Upconversion Lasers)
- 不稳定谐振腔(Unstable Resonators)
- 中红外光谱仪(Mid-infrared Spectrometers)
- 中红外激光光源(Mid-infrared Laser Sources)
- 主动锁模(Active Mode Locking)
- 主振器光纤放大器(Master Oscillator Fiber Amplifier)
- 主激光器(Master Laser)
- 主色散(Principal Dispersion)
- 二极管板条(Diode Bars)
- 二极管泵浦激光器(Diode Stacks)
- 二氧化碳激光器(CO2 Lasers)
- 二色性,分色性(Dichroism)
- 互易法(Reciprocity Method)
- 亮度转换器(Brightness Converters)
- 亮度(Luminance)
- 从属激光器(Slave Laser)
- 传播常数(Propagation Constant)
- 传播损耗(Propagation Losses)
- 低态寿命(Lower-state Lifetime)
- 低温激光器(Cryogenic Lasers)
- 体激光(Bulk Lasers)
- 侧泵浦(Side Pumping)
- 信号灯(Signal Lamps)
- 信噪比(signal-to-noise ratio)
- 倾斜腔(Cavity Dumping)
- 偏振拍长(Polarization Beat Length)
- 偏振模式色散(Polarization Mode Dispersion)
- 光Q开关(Acousto-optic Q Switches)
- 光亮度函数(Luminosity Functions)
- 光参量发生器(Optical Parametric Generators)
- 光参量放大器(Optical Parametric Amplifiers)
- 光外差探测(Optical Heterodyne Detection)
- 光子学(Photonics)
- 光子带隙光纤(Photonic Bandgap Fibers)
- 光子晶体面发射激光器(Photonic Crystal Surface-emitting Lasers)
- 光子计数(Photon Counting)
- 光学倍频器(Optical Frequency Multipliers)
- 光学制冷(Optical Refrigeration)
- 光学工作台(Optical Tables)
- 光学平面(Optical Flats)
- 光学应变传感器(Optical Strain Sensors)
- 光学温度传感器(Optical Temperature Sensors)
- 光学玻璃(Optical Glasses)
- 光学相干层析成像(Optical Coherence Tomography)
- 光学穹顶(Optical Domes)
- 光学能量计(Optical Energy Meters)
- 光学计量(Optical Metrology)
- 光学谐振腔的对准灵敏度(Alignment Sensitivity of Optical Resonators)
- 光学钟表(Optical Clockworks)
- 光学黏团(Optical Molasses)
- 光导取样(Photoconductive Sampling)
- 光度学(Photometry)
- 光度测定(Photometry)
- 光放大器(optical amplifiers)
- 光暗化效应(Photodarkening)
- 光束传输系统(Beam Delivery Systems)
- 光束准直仪(Beam Collimators)
- 光束参数积(Beam Parameter Product)
- 光束均质器,光束均匀器(Beam Homogenizers)
- 光束整形器(Beam Shapers)
- 光束遮断器(Beam Shutters)
- 光梳,光学频率梳(Frequency Combs)
- 光电发射探测器(Photoemissive Detectors)
- 光电导探测器(Photoconductive Detectors)
- 光电探测器的光谱响应(Spectral Response of a Photodetector)
- 光电效应(Photoelectric Effect)
- 光电管(Phototubes)
- 光纤偏振控制器(Fiber Polarization Controllers)
- 光纤切割器(Fiber Cleavers)
- 光纤包层(Fiber Cladding)
- 光纤微弯(Microbends Of Fibers)
- 光纤接头(Fiber Joints)
- 光纤接收角(Acceptance Angle in Fiber Optics)
- 光纤无线电和微波(Radio and Microwave over Fiber)
- 光纤机械续接(Mechanical Fiber Splices)
- 光纤熔化(Fiber Fuse)
- 光纤纤芯(Fiber Core)
- 光纤网络(Fiber-optic Networks)
- 光纤耦合半导体激光器(Fiber-coupled Diode Lasers)
- 光纤耦合器(Fiber Couplers)
- 光纤衰减器(Fiber-optic Attenuators)
- 光纤跳线(Fiber Patch Cables)
- 光纤连接器(Fiber Connectors)
- 光纤通信(Optical Fiber Communications)
- 光纤链路( fiber-optic links)
- 光纤面板(Fiber-optic Plates)
- 光纤预制棒(Fiber Preforms)
- 光调制器(Optical Modulators)
- 光谱亮度(Spectral Brightness)
- 光谱分析仪(Optical Spectrum Analyzers)
- 光谱图(Spectrograms)
- 光谱学(Spectroscopy)
- 光谱灯(Spectral Lamps)
- 光谱相位干涉法(Spectral Phase Interferometry)
- 光谱相位(Spectral Phase)
- 光谱量(Spectral Quantities)
- 光采样,光学取样(optical sampling)
- 光量测定法(Actinometry)
- 光钟(Optical Clocks)
- 光镊(optical tweezers)
- 光频标(Optical Frequency Standards)
- 光(Light)
- 克尔效应(Kerr Effect)
- 克尔透镜锁模(Kerr Lens Mode Locking)
- 全固态激光器(All-solid-state Lasers)
- 共光路干涉仪(Common-path Interferometers)
- 共轭平面(Conjugate Planes)
- 内腔激光吸收光谱学(Intracavity Laser Absorption Spectroscopy)
- 冕牌玻璃(Crown Glasses)
- 冷反射镜(Cold Mirrors)
- 冷发光(Luminescence)
- 准三能级激光增益介质(Quasi-three-level Laser Gain Media)
- 准分子灯(Excimer Lamps)
- 准孤子脉冲(Quasi-soliton Pulses)
- 准直光束(Collimated Beams)
- 凯利边带(Kelly Sidebands)
- 分子激光器(Molecular Lasers)
- 分布布拉格反射激光器(Distributed Bragg Reflector Lasers)
- 分布放大器(Distributed Amplifiers)
- 分散管理(Dispersion Management)
- 分脉冲放大(Divided-pulse Amplification)
- 分贝毫瓦(dBm)
- 分贝(Decibel)
- 切割光纤(Cleaving Of Fibers)
- 功率谱密度(Power Spectral Density)
- 包层模式滤除器(Cladding Mode Strippers)
- 包层模式(Cladding Modes)
- 化学发光(Chemiluminescence)
- 医用激光器(Medical Lasers)
- 半导体可饱和吸收反射镜(Semiconductor Saturable Absorber Mirrors)
- 单偏振光纤(Single-polarization Fibers)
- 单原子激光器(Single-atom Lasers)
- 单晶光纤(Single-crystal Fibers)
- 单晶镜(Crystalline Mirrors)
- 单模光纤(Single-mode Fibers)
- 单模工作(Single-mode Operation)
- 单频工作(Single-frequency Operation)
- 单频激光器(Single-frequency Lasers)
- 去极化损耗(Depolarization Loss)
- 参数非线性(Parametric Nonlinearities)
- 参考空腔(Reference Cavities)
- 参量放大(Parametric Amplification)
- 参量荧光(Parametric Fluorescence)
- 双折射相位匹配(Birefringent Phase Matching)
- 双折射调谐器(Birefringent Tuners)
- 双脉冲(Double Pulses)
- 反光镜(Retroreflectors)
- 反冲极限(Recoil Limit)
- 反射比(Reflectance)
- 反射率(Reflectivity)
- 反射计(Reflectometers)
- 反射镜基底(Mirror Substrates)
- 发射率,辐射系数(Emissivity)
- 取向图案化半导体(Orientation-patterned Semiconductors)
- 变换极限(Transform Limit)
- 可变光衰减器(Variable Optical Attenuators)
- 可变形反射镜(Deformable Mirrors)
- 可调谐光学滤波器(Tunable Optical Filters)
- 可调谐激光器(Tunable Lasers)
- 可饱和半导体布拉格反射镜(Saturable Bragg Reflectors)
- 合作激射(Cooperative Lasing)
- 合束(Beam Combining)
- 同步泵浦(Synchronous Pumping)
- 吸光率(absorbance)
- 吸收比(Absorptance)
- 周期极化(Periodic Poling)
- 和差频产生(Sum and Difference Frequency Generation)
- 响应度(Responsivity)
- 啁啾反射镜(Chirped Mirrors)
- 噪声性能指标(noise specifications)
- 噪声等效功率(Noise-equivalent Power)
- 四倍频(Frequency Quadrupling)
- 四分之一波片反射镜(Quarter-wave Mirrors)
- 四波混频(Four-wave Mixing)
- 四级和三级增益介质(Four-level and Three-level Laser Gain Media)
- 因果关系(Causality)
- 固体激光器(Solid-state Lasers)
- 图像增强器和图像转换器(Image Intensifiers and Image Converters)
- 场镜(field lenses)
- 均匀展宽(Homogeneous Broadening)
- 均匀饱和(Homogeneous Saturation)
- 基本方位点(Cardinal Points)
- 基模锁定(Fundamental Mode Locking)
- 塑料光纤(Plastic Optical Fibers)
- 墙插效率(wall-plug efficiency)
- 增强腔(Enhancement Cavities)
- 增益切换(Gain Switching)
- 增益变窄(Gain Narrowing)
- 增益带宽(Gain Bandwidth)
- 增益引导(gain guiding)
- 增益效率(Gain Efficiency)
- 增益钳制(Gain Clamping)
- 增益(Gain)
- 声光移频器(Acousto-optic Frequency Shifters)
- 声光调制器(Acousto-optic Modulators)
- 外差线宽测量(Self-heterodyne Linewidth Measurement)
- 多光子吸收(Multiphoton Absorption)
- 多声子吸收(Multiphonon Absorption)
- 多普勒极限(Doppler Limit)
- 大芯径光纤(Large-core Fibers)
- 定制光学元件(Custom Optics)
- 寄生激光(Parasitic Lasing)
- 小信号增益(small-signal gain)
- 峰值功率(Peak Power)
- 工业激光器(Industrial Lasers)
- 差模延迟(Differential Mode Delay)
- 布儒斯特盘(Brewster Plates)
- 布儒斯特窗(Brewster Windows)
- 带宽极限脉冲(Bandwidth-limited Pulses)
- 带宽距离积(Bandwidth–distance Product)
- 带宽(Bandwidth)
- 平板波导(Planar Waveguides)
- 平板激光器(Slab Lasers)
- 平衡光电探测(Balanced Photodetection)
- 平顶光束(Flat-top Beams)
- 延迟非线性响应(Delayed Nonlinear Response)
- 张弛振荡(Relaxation Oscillations)
- 强度调制器(Intensity Modulators)
- 循环光纤环(Recirculating Fiber Loops)
- 微芯片激光器(Microchip Lasers)
- 成像(Imaging)
- 截止波长(Cut-off Wavelength)
- 扩散器(Diffusers)
- 扩束器(Beam Expanders)
- 扭曲模式技术(Twisted-mode Technique)
- 折射(Refraction)
- 抛物线脉冲(Parabolic Pulses)
- 拉曼放大器(Raman Amplifiers)
- 拉曼散射(Raman Scattering)
- 拉比振荡(Rabi Oscillations)
- 振幅压缩光(Amplitude-squeezed Light)
- 探测率(Detectivity)
- 掺杂绝缘体激光器(Doped Insulator Lasers)
- 掺杂过渡金属的激光增益介质(Transition-metal-doped Laser Gain Media)
- 掺钕激光增益介质(Neodymium-doped Laser Gain Media)
- 掺铒光纤放大器(Erbium-doped Fiber Amplifiers)
- 掺铒激光增益介质(Erbium-doped Laser Gain Media)
- 掺铒镱激光增益介质(Erbium-ytterbium-doped Laser Gain Media)
- 掺铬激光增益介质(Chromium-doped Laser Gain Media)
- 掺镱激光增益介质(Ytterbium-doped Laser Gain Media)
- 插入损耗(Insertion Loss)
- 摄像头,照相机(Cameras)
- 摄影物镜(Photographic Objectives)
- 放大器链(amplifier chains)
- 放大率(Magnification)
- 放大的自发辐射(Amplified Spontaneous Emission)
- 放大系数(amplification factor)
- 放大镜(Magnifying Glasses)
- 散射(Scattering)
- 散粒噪声(Shot Noise)
- 数值色散(Dispersion)
- 斜坡效率(Slope Efficiency)
- 斯塔克水平流形(Stark Level Manifolds)
- 斯托克斯频移(Stokes Shift)
- 无反转激光(Lasing Without Inversion)
- 无源光纤(Passive Fibers)
- 无焦光学系统(Afocal Optical Systems)
- 无芯端盖(Core-less End Caps)
- 时分复用(Time Division Multiplexing)
- 时域走离效应(Temporal Walk-off)
- 时间带宽积(Time–bandwidth Product)
- 显微镜物镜(Microscope Objectives)
- 普克尔斯盒驱动器(Pockels Cell Drivers)
- 景深(Depth of Field)
- 晶体恒温箱(Crystal Ovens)
- 暗视觉和明视觉(Scotopic and Photopic Vision)
- 有效折射率(Effective Refractive Index)
- 有效模式面积(Effective Mode Area)
- 有效跃迁截面(Transition Cross Sections)
- 朗伯比尔定律(Beer–Lambert Law)
- 材料加工用激光器(Lasers for Material Processing)
- 束流收集器(Beam Dumps)
- 极化波(Polarization Waves)
- 标准谱线(Standard Spectral Lines)
- 标准量子极限(Standard Quantum Limit)
- 梯度折射率透镜(Gradient-index Lenses)
- 梳状滤波器(Rugate Filters)
- 棒状激光器(Rod Lasers)
- 棒状透镜(Rod Lenses)
- 模场转换器(Mode Field Converters)
- 模式半径(Mode Radius)
- 模式耦合(Mode Coupling)
- 模式跳变(Mode Hopping)
- 模态带宽(Modal Bandwidth)
- 模消除腔(Mode Cleaner Cavities)
- 模清洁器(Mode Cleaners)
- 模间色散(Intermodal Dispersion)
- 正反馈放大器(regenerative amplifiers)
- 比特误码率(Bit Error Rate)
- 比色法(Colorimetry)
- 氩离子激光器(Argon Ion Lasers)
- 汞蒸汽灯(Mercury Vapor Lamps)
- 法拉第效应(Faraday effect)
- 法拉第隔离器(Faraday Isolators)
- 波分复用(Wavelength Division Multiplexing)
- 波前(Wavefronts)
- 波导激光器(Waveguide Lasers)
- 波带片(Zone Plates)
- 波数(Wavenumber)
- 波束指向涨落(Beam Pointing Fluctuations)
- 波片(Waveplates)
- 波长协调(Wavelength Tuning)
- 泵参数(Pump Parameter)
- 泵室(Pump Chambers)
- 泵浦吸收(pump absorption)
- 泵浦衰竭(Pump Depletion)
- 活性纤维(active fiber)
- 消色差光学(Achromatic Optics)
- 液晶显示器(Liquid Crystal Displays)
- 淬灭(quenching)
- 清洁光学元件(Cleaning of Optics)
- 渐晕(Vignetting)
- 激光3D打印(Laser 3D Printing)
- 激光二极管模块(Laser Diode Modules)
- 激光二极管测试(Laser Diode Testing)
- 激光二极管(Laser Diodes)
- 激光冷却装置(Laser Cooling Units)
- 激光加工头(Laser Processing Heads)
- 激光加工(Laser Machining)
- 激光动力学(Laser Dynamics)
- 激光反射镜(Laser Mirrors)
- 激光发展(Laser Development)
- 激光可视卡(Laser Viewing Cards)
- 激光器的功率定标(Power Scaling of Lasers)
- 激光器的辐射率比例(Quasi-continuous-wave Operation)
- 激光器规格(Laser Specifications)
- 激光噪声(Laser Noise)
- 激光增材制造(Laser Additive Manufacturing)
- 激光增益介质(laser gain media)
- 激光安全眼镜(Laser Safety Glasses)
- 激光应用(Laser Applications)
- 激光建模(Laser Modeling)
- 激光打标(Laser Marking)
- 激光指示器(Laser Pointers)
- 激光束特性(Laser Beam Characterization)
- 激光硬化(Laser Hardening)
- 激光线光学元件(Laser Line Optics)
- 激光设计(Laser Design)
- 激光跃迁(Laser Transitions)
- 激光软钎焊(laser soldering)
- 激光钻孔(Laser Drilling)
- 激光雷达(LIDAR)
- 激光(Lasers)
- 激发态吸收(Excited-state Absorption)
- 灯电源(Lamp Power Supplies)
- 热释电探测器(Pyroelectric Detectors)
- 热镜(Hot Mirrors)
- 焦平面阵列(Focal Plane Arrays)
- 焦比(f-number)
- 焦点和焦平面(Focal Points and Focal Planes)
- 焦点距离(Focal Distance)
- 焦点(Focus)
- 照相机(Photo Cameras)
- 物象空间(Object and Image Space)
- 物镜(Objectives)
- 玻璃激光器和放大器(Glass Lasers and Amplifiers)
- 瑞利散射(Rayleigh Scattering)
- 瑞利长度(Rayleigh Length)
- 用透镜成像(Imaging with a Lens)
- 电介质反射镜(Dielectric Mirrors)
- 电介质涂层(Dielectric Coatings)
- 电光学(Electro-optics)
- 电力光纤(Power over Fiber)
- 电吸收调制器(Electroabsorption Modulators)
- 电子振动激光器(Vibronic Lasers)
- 电子色散补偿(electronic dispersion compensation)
- 白光干涉仪(White Light Interferometers)
- 皮秒二极管激光器(Picosecond Diode Lasers)
- 目镜(ocular lenses)
- 直径发散角乘积(Diameter–divergence Product)
- 直接二极管激光(Direct Diode Lasers)
- 相位匹配带宽 (Phase-matching Bandwidth)
- 相位延迟(Retardance)
- 相位校正板(Phase Corrector Plates)
- 相位调制器(Phase Modulators)
- 相干(Coherence)
- 真空噪声(vacuum noise)
- 眼安全的激光(Eye-safe Lasers)
- 石英光纤(Silica Fibers)
- 硅光子学(Silicon Photonics)
- 磷酸盐玻璃(Phosphate Glasses)
- 禁止跃迁(Forbidden Transitions)
- 种子注入(Injection Seeding)
- 科学激光器(Scientific Lasers)
- 积分球(Integrating Spheres)
- 移距离测量法(Phase Shift Method for Distance Measurements)
- 稀土掺杂光纤(Rare-earth-doped Fibers)
- 稀土掺杂激光增益介质(Rare-earth-doped Laser Gain Media)
- 稳频激光器(Frequency-stabilized Lasers)
- 空分复用(Space Division Multiplexing)
- 空心光纤(Hollow-core Fibers)
- 等泵浦激光器(Lamp-pumped Lasers)
- 紫外线(Ultraviolet Light)
- 红外光学(Infrared Optics)
- 红外摄像机(Infrared Cameras)
- 红外观察器(Infrared Viewers)
- 红宝石激光器(Ruby Lasers)
- 红色激光器(Red Laser)
- 纤维抛光(Polishing of Fibers)
- 纳秒激光器(Nanosecond Lasers)
- 纳米光纤(Nanofibers)
- 线宽(Linewidth)
- 结晶镜(Crystalline Mirrors)
- 绝热孤子压缩(Adiabatic Soliton Compression)
- 绿激光(Green Laser)
- 群速度失配(Group Velocity Mismatch)
- 翠绿宝石激光器(Alexandrite Lasers)
- 联锁装置(Interlocks)
- 聚光器(Condensers)
- 聚焦深度(Depth of Focus)
- 聚类(Clustering)
- 肖洛-汤斯线宽(Schawlow–Townes Linewidth)
- 脉冲产生(Pulse Generation)
- 脉冲前倾(Pulse Front Tilt)
- 脉冲式激光器(Burst Mode Lasers)
- 脉冲持续时间(Pulse Duration)
- 脉冲激光沉积(Pulsed Laser Deposition)
- 脉冲能量(Pulse Energy)
- 腔(Cavities)
- 自动准直仪(Autocollimators)
- 自启动模式锁定(Self-starting Mode Locking)
- 自终止激光跃迁(Self-terminating Laser Transitions)
- 色度(Chromaticity)
- 色心(Color Centers)
- 色散位移光纤(Dispersion-shifted Fibers)
- 色散缓变光纤(Dispersion-decreasing Fibers)
- 色散补偿模块(Dispersion Compensation Modules)
- 色散镜(Dispersive Mirrors)
- 菲涅尔数(Fresnel Number)
- 蓝光激光器(Blue Lasers)
- 融合拼接光纤(Fusion Splicing Of Fibers)
- 衍射光学(Diffractive Optics)
- 视场光阑(Field Stops)
- 角锥棱镜(Corner Cube Prisms)
- 走离效应(Spatial Walk-off)
- 超反射镜(Supermirrors)
- 超辐射光源(Superluminescent Sources)
- 超辐射发光二极管(Superluminescent Diodes)
- 超辐射(Superradiance)
- 输出耦合器(Output Couplers)
- 输出耦合效率(Output Coupling Efficiency)
- 通信光纤(Telecom Fibers)
- 速度匹配光电探测器(Velocity-matched Photodetectors)
- 量子噪声(Quantum Noise)
- 量子效率(Quantum Efficiency)
- 金属-半导体-金属光探测器(Metal–semiconductor–metal Photodetectors)
- 钒酸盐激光器(Vanadate Lasers)
- 钠蒸气灯(Sodium Vapor Lamps)
- 钨酸盐激光器(Tungstate Lasers)
- 锁模装置(Mode Locking Devices)
- 锗酸盐光纤(Germanate Fibers)
- 锥形光纤(Tapered Fibers)
- 锥形放大器(Tapered Amplifiers)
- 阶跃折射率光纤(Step-index Fibers)
- 附加脉冲锁模(Additive-pulse Mode Locking)
- 陶瓷激光增益介质(Ceramic Laser Gain Media)
- 隐矢波,隐逝波(Evanescent Waves)
- 隔膜(Diaphragms)
- 零色散波长(Zero Dispersion Wavelength)
- 非临界相位匹配(Noncritical Phase Matching)
- 非均匀展宽(Inhomogeneous Broadening)
- 非均匀饱和(Inhomogeneous Saturation)
- 非平面环形振荡器(Nonplanar Ring Oscillators)
- 非线性脉冲失真(Nonlinear Pulse Distortion)
- 非线性(Nonlinearities)
- 非经典光(Nonclassical Light)
- 频域分辨光学开关法(Frequency-resolved Optical Gating)
- 频谱测量(Frequency Metrology)
- 高亮度激光二极管(High Brightness Laser Diodes)
- 高光谱成像(Hyperspectral Imaging)
- 高功率光纤激光器和放大器(High-power Fiber Lasers and Amplifiers)
- 高度非线性纤维(Highly Nonlinear Fibers)
- 高强度放电灯(High Intensity Discharge Lamps)
- 高能态寿命(Upper-state Lifetime)
- 高能激光(High-energy Lasers)
- 高阶孤子(Higher-order Solitons)
- 黄色和橙色激光器(yellow and orange lasers)