Search this Journal
Submit a Paper
163 articles
Actions
- Export Citations as
- BibTex
- Endnote (RIS)
- HTML
- Plain Text
- Save to my favorites
- Choose folder...
Theoretical investigation of an optical microscope design that achieves wide-field, multiphoton fluorescence microscopy with finer axial resolution than confocal microscopy. An example of numerically simulated electric field near the specimen plane, ESP(r,z,t), which also reveals the dynamic process of temporal focusing. For details, see Yu et al., Opt. Express 21, 2097 (2013).
Topics
Sort by Name | Total Articles
- Diffuse Imaging, Tissue Optics, and Scattering (15)
- Microscopy and Optical Coherence Tomography (28)
- Optical Spectroscopies, Probes and Contrast Agents (22)
- Image Reconstruction, Data Processing, and Modeling (20)
- Biosensors, Molecular Diagnostics, and Biometrics (5)
- Optical Instrumentation, Endoscopy, and MEMS (11)
- Optical Traps, Manipulation, and Tracking (9)
- Microfluidics and Nanofluidics (2)
- X-ray Microscopy and Imaging (1)
- Biomaterials, Biomimetics, and Biomechanics (2)
- Thermography (1)
- Novel Light Sources, Optics, and Detectors (14)
- Ultrafast Lasers (1)
- Vision and Color (6)
- Optics in Cancer Research (2)
- Optics in Neuroscience (1)
- Optics in Therapies, Photomodification, and Phototoxicity (2)
- Dermatology and Skin (1)
- Food and Drugs (2)
- Ocean and Plant Science (3)
- Photoacoustic Imaging (3)
- Reviews (1)
- Nanotechnology (7)
- Active and Adaptive Optics (4)