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Study of Optical Effects Due to an Induced Polarization Third Order in the Electric Field StrengthFrom Animaculum to single molecules: 300 years of the light microscopeTaking a deep look: modern microscopy technologies to optimize the design and functionality of biocompatible scaffolds for tissue engineering in regenerative medicineTwo-Photon Photoelectric EffectOptical Double-Photon Absorption in Cesium VaporNonperturbative modeling of two-photon absorption in a three-state system.Two-photon excitation of the lowest 4f2-->4f5d near-ultraviolet transitions in Pr3+:Y3Al5O12.Plasma heating by two laser fields.X-ray absorption in atoms under intense laser fields.Fibre-optic nonlinear optical microscopy and endoscopy.Two-photon excitation microscopy for the study of living cells and tissues.Effects of conjugation length and resonance enhancement on two-photon absorption in phenylene-vinylene oligomers.Two-quantum UV photochemistry of nucleic acids: comparison with conventional low-intensity UV photochemistry and radiation chemistry.Single molecule microscopy of biomembranes (review).Calculation of two-photon absorption strengths with the approximate coupled cluster singles and doubles model CC2 using the resolution-of-identity approximation.Coherence brightened laser source for atmospheric remote sensingSynthesis and two-photon absorption property characterizations of small dendritic chromophores containing functionalized quinoxaliniod heterocycles.Towards controlling molecular motions in fluorescence microscopy and optical trapping: a spatiotemporal approach.Multiphoton excited fluorescent materials for frequency upconversion emission and fluorescent probes.Photon energy upconversion through thermal radiation with the power efficiency reaching 16%.Two-photon excitation fluorescence microscopy and its application in functional connectomics.Phonon-Assisted Anti-Stokes Lasing in ZnTe Nanoribbons.Measurement of Two-Photon Absorption Cross Section of Metal Ions by a Mass Sedimentation Approach.Three-photon circular dichroism: towards a generalization of chiroptical non-linear light absorption.Two-photon and second harmonic microscopy in clinical and translational cancer researchOrigin-independent two-photon circular dichroism calculations in coupled cluster theory.Establishing nonlinearity thresholds with ultraintense X-ray pulses.pH Effect on Two-Photon Cross Section of Highly Fluorescent Dyes Using Femtosecond Two-Photon Induced Fluorescence.Open-ended formulation of self-consistent field response theory with the polarizable continuum model for solvation.Two-photon-absorption line strengths for nitric oxide: Comparison of theory and sub-Doppler, laser-induced fluorescence measurements.Molecular relaxation in the 10-12 second range.Lasers in chemistry.On the possibility of calcium imaging using Indo-1 with three-photon excitation.Simultaneous two-photon activation of type-I photodynamic therapy agents.Multiphoton fabrication.Engineering of micro- and nanostructured surfaces with anisotropic geometries and properties.Advanced fluorescence microscopy techniques--FRAP, FLIP, FLAP, FRET and FLIM.Non-invasive imaging techniques in the diagnosis of skin diseases.Fluorescence microscopy-a historical and technical perspective.Fluorescent silver nanoclusters stabilized by DNA scaffolds.
P2860
Q21709391-83F45585-D2BB-49D6-848B-829E081580DEQ26829384-3554E296-3599-4905-938A-A3ACF221FCA4Q27023805-A3B487BE-D534-4835-B2D0-116254C7DBA1Q27347692-48FBE9E3-37B0-4537-B608-5A364EEA3E62Q27351803-584FFBE5-BBC6-4247-BF2A-5DA11141336AQ31129937-0C49293D-CAE2-4B38-B0B1-36F185297BD8Q31137937-417B4A73-73FD-47AB-9B07-3734BDD0836DQ31928268-9FF2833E-7E23-4FE5-BC34-6069EACBA01FQ31928704-BAE22164-49EF-419C-9301-069F3A09E8A7Q33286073-DC51BE49-6C29-4D72-8B39-6DA17C0E0197Q33316967-AD2D370F-1134-46CC-9EDD-2B280335AC1DQ33319582-6766E655-D468-4676-94DB-5E9150865CE8Q33494055-39A396B6-B3AB-475B-BB79-02478F841B4FQ33926068-A8207BFF-D70F-40AD-B60D-AD8B9A1F282AQ34087115-95E70EE6-67FE-49F2-AB41-41A006A61752Q34403451-08A6D960-0B3F-4D9F-81ED-14FCB446AB98Q34483889-60BF2E30-58DB-489D-8569-CB7F805E9D6CQ34787630-41E399CA-43A5-4F8F-9033-B28FCF3DEEDEQ35198793-8FDCACEE-CE86-43D4-A382-B3389169B729Q35456879-3F786314-343C-47D4-8D94-88B029EC8AC7Q35533919-36D7EC04-F12A-4036-A7D8-FBC7C26E2068Q35843156-B4430A83-445A-4C87-9539-A402449FE9F6Q35866626-76CCA71B-6EAA-4B8C-98A1-67AA7C561A8AQ35897269-62904164-DD1F-4E48-A6C1-F64F976154F5Q35929531-88F83A2A-94E5-4736-9EB3-4859D66B4355Q36007348-68938112-8316-41EE-8F74-9278130D1A37Q36130651-6B32DEE1-45AD-4EF5-9B7A-984A6773797AQ36193709-1672C0E1-30CA-466A-A019-735332D53465Q36208925-EAD7F4C7-91DF-4511-9E29-F3EC258604E6Q36339646-3FD52078-6943-4550-BFC6-EB665820BFC6Q36550204-67653E88-AE79-498C-AED9-18F5E761F8ACQ36570338-4F6F94D9-E471-47DC-8F8B-925781F3EE05Q36670082-CC5BFD0E-BB9C-45A9-8824-E13B9B0047E5Q36879845-B363A0BD-B5B6-42C8-8C03-7224ABEA76EEQ36892536-D04E6946-CFA9-4E20-8FB7-EE608DCE6BC8Q37991276-9D830D68-5BE6-482B-8774-8E1C78DD96C2Q37999193-36E2D028-7B99-458A-AD6D-5DB6167EEAA2Q38088750-EB353622-B69B-4E38-BAFD-1257D0D5B65DQ38098961-6D7C689C-B6C5-453A-8E17-BBB199BE6BBCQ38217887-B73C04DB-2C3F-4AB8-B64F-0C4688A841E4
P2860
description
1961 nî lūn-bûn
@nan
1961 թուականի Սեպտեմբերին հրատարակուած գիտական յօդուած
@hyw
1961 թվականի սեպտեմբերին հրատարակված գիտական հոդված
@hy
1961年の論文
@ja
1961年論文
@yue
1961年論文
@zh-hant
1961年論文
@zh-hk
1961年論文
@zh-mo
1961年論文
@zh-tw
1961年论文
@wuu
name
Two-Photon Excitation in Ca F 2 : Eu 2 +
@ast
Two-Photon Excitation in Ca F 2 : Eu 2 +
@en
Two-Photon Excitation in Ca F 2 : Eu 2 +
@en-gb
type
label
Two-Photon Excitation in Ca F 2 : Eu 2 +
@ast
Two-Photon Excitation in Ca F 2 : Eu 2 +
@en
Two-Photon Excitation in Ca F 2 : Eu 2 +
@en-gb
altLabel
Two-Photon Excitation in Ca F 2 : Eu 2 +
@en
prefLabel
Two-Photon Excitation in Ca F 2 : Eu 2 +
@ast
Two-Photon Excitation in Ca F 2 : Eu 2 +
@en
Two-Photon Excitation in Ca F 2 : Eu 2 +
@en-gb
P1476
Two-Photon Excitation in Ca F 2 : Eu 2 +
@en
P2093
C. G. B. Garrett
P304
P356
10.1103/PHYSREVLETT.7.229
P407
P577
1961-09-01T00:00:00Z
1961-09-15T00:00:00Z