03261nam 22006614a 450 991045523080332120210519185338.01-282-40021-5978661240021690-474-2442-510.1163/ej.9789004171114.i-206(CKB)1000000000806888(EBL)468300(OCoLC)567579047(SSID)ssj0000340165(PQKBManifestationID)11274421(PQKBTitleCode)TC0000340165(PQKBWorkID)10365230(PQKB)10927331(MiAaPQ)EBC468300(nllekb)BRILL9789047424420(PPN)174390602(Au-PeEL)EBL468300(CaPaEBR)ebr10363766(CaONFJC)MIL240021(EXLCZ)99100000000080688820080922d2009 uy 0latur|n|---|||||txtccrMarriage advice for a Pope[electronic resource] John XXII and the power to dissolve /by Patrick NoldLeiden ;Boston Brill20091 online resource (304 p.)Medieval law and its practice,1873-8176 ;v. 3Description based upon print version of record.90-04-17111-8 Includes bibliographical references (p. [189]-196) and indexes.Preliminary Material /P. Nold --Part One. Introduction /P. Nold --Part Two. Edition /P. Nold --Bibliography /P. Nold --Index Biblicus /P. Nold --Index Of Medieval Authors And Texts /P. Nold --Index Of Modern Authors /P. Nold.The Medieval Church taught that marriage was indissoluble and that consent was the key. Why then could a marriage be dissolved by one spouse joining a religious order after an exchange of consent but before consummation? This question vexed Thirteenth-century academics and, in the fourteenth century, Pope John XXII asked a group of leading theologians and lawyers to study the issue. Position-papers were produced to explain the exception to the rule of indissolubility for chaste monks and nuns, and to explore whether the pope had the power to extend it to celibate priests and deacons. These texts, edited here, were used by John XXII to draft his bull Antique Concertationi (1322). This study reconstructs the story behind the constitution, providing a unique insight into the decision-making process at the Roman curia in Avignon under a controversial pope.Medieval law and its practice ;v. 3.Impediments to marriage (Canon law)HistoryMonasticism and religious orders (Canon law)HistoryMarriageAnnulment (Canon law)HistoryElectronic books.Impediments to marriage (Canon law)History.Monasticism and religious orders (Canon law)History.MarriageAnnulment (Canon law)History.262.9/2Nold Patrick977027MiAaPQMiAaPQMiAaPQBOOK9910455230803321Marriage advice for a Pope2225744UNINA06901nam 2200481 450 99647206100331620231110224304.0981-19-1641-1(MiAaPQ)EBC6951408(Au-PeEL)EBL6951408(CKB)21502475200041(PPN)262169169(EXLCZ)992150247520004120221117d2022 uy 0engurcnu||||||||txtrdacontentcrdamediacrrdacarrierComputational optical phase imaging /Cheng Liu, Shouyu Wang, and Suhas P. VeetilGateway East, Singapore :Springer,[2022]©20221 online resource (311 pages)Progress in Optical Science and Photonics ;v.21Print version: Liu, Cheng Computational Optical Phase Imaging Singapore : Springer Singapore Pte. Limited,c2022 9789811916403 Includes bibliographical references and index.Intro -- Preface -- Contents -- 1 Introduction to Computational Phase Imaging -- 1.1 Fundamentals of Optical Imaging -- 1.2 Limitations of Common Intensity Imaging -- 1.3 Intensity Imaging to Phase Imaging -- 1.4 Basic Principles of Computational Phase Imaging -- References -- 2 Qualitative Phase Imaging -- 2.1 Phase Contrast Microscopy -- 2.2 Differential Interference Contrast (DIC) Microscopy -- 2.3 Spectrum Modulation Contrast Imaging -- 2.4 Hoffman Modulation Contrast Microscopy -- 2.5 Schlieren Photography -- 2.6 Comparison of Qualitative Phase Imaging Techniques -- References -- 3 Interference-Based Quantitative Optical Phase Imaging -- 3.1 Description of Holography and Interferometry -- 3.2 Classification of Holography and Interferometry -- 3.2.1 On-Axis and Off-Axis -- 3.2.2 Fresnel and Fourier -- 3.2.3 Shearing and Non-shearing -- 3.3 Numerical Simulations on Holography and Interferometry -- 3.3.1 Numerical Simulation on Gabor Digital Holography -- 3.3.2 Numerical Simulation on On-Axis Digital Holography -- 3.3.3 Numerical Simulation on Off-Axis Digital Holography -- 3.3.4 Numerical Simulation on Interferometry -- 3.3.5 Numerical Simulation on Fresnel Digital Holography -- 3.3.6 Numerical Simulation on Fourier Digital Holography -- 3.3.7 Numerical Simulation on Lateral Shearing Interferometry -- 3.3.8 Numerical Simulation on Phase Unwrapping -- 3.4 Improvements in Holography and Interferometry -- 3.4.1 Improvements in Phase Retrieval Methods -- 3.5 Extensions on Holography and Interferometry -- 3.5.1 Spatial Light Interference Microscopy (SLIM) -- 3.5.2 Quantitative Differential Interference Contrast (DIC) Microscopy -- 3.5.3 Quadriwave Lateral Shearing Interferometry -- 3.5.4 Optical Scanning Holography (OSH) -- 3.5.5 Fresnel Incoherent Correlation Holography (FINCH) -- 3.5.6 Coded Aperture Correlation Holography (COACH).3.5.7 Computer-Generated Holography (CGH) -- 3.6 Summary -- References -- 4 Non-interferometric Quantitative Optical Phase Imaging -- 4.1 Coherent Diffraction Imaging -- 4.1.1 G-S Algorithm -- 4.1.2 ER and HIO Algorithms of Fienup -- 4.1.3 Existence of Convergence in Iterative CDI Algorithms -- 4.1.4 Equivalence of ER Algorithm and Steepest-Decent Method -- 4.1.5 Ptychographic Iterative Engine -- 4.1.6 Fourier Ptychographic Microscopy -- 4.1.7 Coherent Modulation Imaging -- 4.2 Transport of Intensity Equation Method -- 4.2.1 Theory of Transport of Intensity Equation and Its Classical Solution -- 4.2.2 Numerical Simulations on TIE Method -- 4.2.3 Important Improvements on Phase Retrieval -- 4.2.4 Important Improvement on Multi-focal Imaging -- 4.2.5 Discussion -- 4.3 Shack-Hartmann Wavefront Sensor -- 4.3.1 Theory of Hartmann and Shack-Hartmann Wavefront Sensors -- 4.3.2 Numerical Simulations on Shack-Hartmann Wavefront Sensor -- 4.3.3 Discussion -- 4.4 Other Quantitative Computational Optical Phase Imaging Techniques -- 4.4.1 Differential Phase Contrast Microscopy -- 4.4.2 Pyramid Wavefront Sensing -- 4.4.3 Moiré Deflectometry -- 4.4.4 Coded Aperture Phase Imaging -- 4.4.5 Phase Diversity -- References -- 5 Typical Applications of Computational Phase Imaging -- 5.1 Measurement of Inner Stress and Deformation -- 5.1.1 Measurement of 3D Stress Around Laser Induced Damage -- 5.1.2 Measurement of Deformation with Digital Holography -- 5.2 Applications of CDI in Optical Engineering -- 5.2.1 Diagnosing the High Power Laser Beam Online with Coherent Modulation Imaging (CMI) -- 5.2.2 Inspection on the Quality of Optical Element with PIE -- 5.3 Computational Optical Phase Imaging in Biomedical Imaging -- 5.3.1 Computational Optical Phase Microscopy in Static Specimen Observation -- 5.3.2 Computational Optical Phase Imaging in Dynamic Specimen Observation.5.3.3 Computational Optical Phase Imaging in Hybrid Imaging -- 5.3.4 Computational Optical Phase Imaging in Extended Applications -- 5.3.5 Summary -- 5.4 Computational Optical Phase Imaging for Adaptive Optics -- 5.4.1 Computational Optical Phase Imaging in Optical Aberration Detection -- 5.4.2 Computational Optical Phase Imaging in Deep Imaging Within Complex Scattering Media -- 5.4.3 Summary -- 5.5 Refocusing and Tracking -- 5.5.1 Background -- 5.5.2 Refocusing in Optical Phase Imaging for In-Focus Image Reconstruction -- 5.5.3 Refocusing in Optical Phase Imaging for Depth of View Extension -- 5.5.4 Refocusing in Optical Phase Imaging for Three-Dimensional Particle Tracking -- 5.5.5 Summary -- 5.6 Three-Dimensional (3D) Computational Phase Imaging -- 5.6.1 Classical Optical Diffraction Tomography -- 5.6.2 3D Imaging with Curved Illumination -- 5.6.3 3D Imaging with K-Domain Transform -- 5.6.4 3D Imaging with Ptychography -- 5.7 Summary -- References -- 6 Recent Trends in Computational Optical Phase Imaging -- 6.1 Deep Learning in Computational Optical Phase Imaging -- 6.1.1 Deep Learning Used in Phase Retrieval -- 6.1.2 Deep Learning Used in Computational Optical Phase Imaging Applications -- 6.1.3 Discussions -- 6.2 Point-of-Care Computational Optics Phase Imaging -- 6.2.1 Point-of-Care Digital Holographic Microscopy -- 6.2.2 Point-of-Care Ptychographic Microscopy -- 6.2.3 Point-of-Care Transport of Intensity Phase Microscopy -- 6.2.4 Point-of-Care Differential Phase Contrast Microscopy -- 6.2.5 Discussions -- References.Progress in Optical Science and Photonics Image processingDigital techniquesImage processingDigital techniques.535Liu Cheng517154Wang ShouyuVeetil Suhas P.MiAaPQMiAaPQMiAaPQBOOK996472061003316Computational optical phase imaging2967957UNISA