Introduction to modern digital holography :: with MATLAB /
"Get up to speed with digital holography with this concise and straightforward introduction to modern techniques and conventions. Building up from the basic principles of optics, this book describes key techniques in digital holography, such as phase-shifting holography, low-coherence holograph...
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| Format: | Elektronisch E-Book |
| Sprache: | English |
| Veröffentlicht: |
Cambridge [England], United Kingdom :
Cambridge University Press,
2014.
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| Schlagworte: | |
| Online-Zugang: | Volltext |
| Zusammenfassung: | "Get up to speed with digital holography with this concise and straightforward introduction to modern techniques and conventions. Building up from the basic principles of optics, this book describes key techniques in digital holography, such as phase-shifting holography, low-coherence holography, diffraction tomographic holography and optical scanning holography, discussing their practical applications, and accompanied by all the theory necessary to understand the underlying principles at work. A further chapter covers advanced techniques for producing computer-generated holograms. Extensive Matlab code is integrated with the text throughout and available for download online, illustrating both theoretical results and practical considerations such as aliasing, zero padding and sampling. Accompanied by end-of-chapter problems and an online solutions manual for instructors, this is an indispensable resource for students, researchers and engineers in the fields of optical image processing and digital holography"-- |
| Beschreibung: | 1 online resource |
| Bibliographie: | Includes bibliographical references and index. |
| ISBN: | 9781107731783 110773178X 9781139061346 1139061348 9781107723658 1107723655 |
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| 100 | 1 | |a Poon, Ting-Chung. |0 http://id.loc.gov/authorities/names/n90675413 | |
| 245 | 1 | 0 | |a Introduction to modern digital holography : |b with MATLAB / |c Ting-Chung Poon, Jung-Ping Liu. |
| 264 | 1 | |a Cambridge [England], United Kingdom : |b Cambridge University Press, |c 2014. | |
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| 520 | |a "Get up to speed with digital holography with this concise and straightforward introduction to modern techniques and conventions. Building up from the basic principles of optics, this book describes key techniques in digital holography, such as phase-shifting holography, low-coherence holography, diffraction tomographic holography and optical scanning holography, discussing their practical applications, and accompanied by all the theory necessary to understand the underlying principles at work. A further chapter covers advanced techniques for producing computer-generated holograms. Extensive Matlab code is integrated with the text throughout and available for download online, illustrating both theoretical results and practical considerations such as aliasing, zero padding and sampling. Accompanied by end-of-chapter problems and an online solutions manual for instructors, this is an indispensable resource for students, researchers and engineers in the fields of optical image processing and digital holography"-- |c Provided by publisher | ||
| 588 | 0 | |a Print version record. | |
| 504 | |a Includes bibliographical references and index. | ||
| 505 | 0 | |a Cover; Half title; Title; Copyright; Contents; Preface; 1 Wave optics; 1.1 Maxwell's equations and the wave equation; 1.2 Plane waves and spherical waves; 1.3 Scalar diffraction theory; 1.3.1 Fresnel diffraction; 1.3.2 Fraunhofer diffraction; 1.4 Ideal thin lens as an optical Fourier transformer; 1.5 Optical image processing; Problems; References; 2 Fundamentals of holography; 2.1 Photography and holography; 2.2 Hologram as a collection of Fresnel zone plates; 2.3 Three-dimensional holographic imaging; 2.3.1 Holographic magnifications; 2.3.2 Translational distortion. | |
| 505 | 8 | |a Example 2.1: Holographic magnification2.3.3 Chromatic aberration; Example 2.2: Chromatic aberration calculation; 2.4 Temporal and spatial coherence; 2.4.1 Temporal coherence; 2.4.2 Coherence time and coherence length; 2.4.3 Some general temporal coherence considerations; 2.4.4 Fourier transform spectroscopy; 2.4.5 Spatial coherence; 2.4.6 Some general spatial coherence considerations; Example 2.3: Double-pinhole interference; Problems; References; 3 Types of holograms; 3.1 Gabor hologram and on-axis (in-line) holography; 3.2 Off-axis holography. | |
| 505 | 8 | |a Example 3.1: Determination of the offset angle and the required resolving power of the recording medium3.3 Image hologram; Example 3.2: Simulation of an image hologram; 3.4 Fresnel and Fourier holograms; 3.4.1 Fresnel hologram and Fourier hologram; Example 3.3: Simulation of a Fourier transform hologram; 3.4.2 Lensless Fourier hologram; 3.5 Rainbow hologram; Example 3.4: Simulation of a rainbow hologram simulation; Problems; References; 4 Conventional digital holography; 4.1 Sampled signal and discrete Fourier transform; Example 4.1: Under-sampling and aliasing; Example 4.2: Sampling. | |
| 505 | 8 | |a Example 4.3: Fourier transform of a rectangular function4.2 Recording and limitations of the image sensor; 4.2.1 Imager size; 4.2.2 Pixel pitch; 4.2.3 Modulation transfer function; 4.3 Digital calculations of scalar diffraction; 4.3.1 Angular spectrum method (ASM); Example 4.4: Diffraction of a rectangular aperture; 4.3.2 Validity of the angular spectrum method; 4.3.3 Fresnel diffraction method (FDM); 4.3.4 Validation of the Fresnel diffraction method; Example 4.5: Diffraction of a rectangular aperture (using FDM); 4.3.5 Backward propagation; 4.4 Optical recording of digital holograms. | |
| 505 | 8 | |a 4.4.1 Recording geometryOn-axis Fresnel holography; Off-axis Fresnel holography; Fourier holography; 4.4.2 Removal of the twin image and the zeroth-order light; Fourier holography; Off-axis Fresnel holography; Example 4.6: Recording an off-axis digital hologram; 4.5 Simulations of holographic recording and reconstruction; Example 4.7: Simulation of on-axis holographic recording and reconstruction; Example 4.8: Simulation of off-axis holographic recording and reconstruction; Problems; References; 5 Digital holography: special techniques; 5.1 Phase-shifting digital holography. | |
| 650 | 0 | |a Holography |x Data processing. | |
| 650 | 0 | |a Image processing |x Digital techniques. |0 http://id.loc.gov/authorities/subjects/sh85064447 | |
| 650 | 6 | |a Traitement d'images |x Techniques numériques. | |
| 650 | 7 | |a digital imaging. |2 aat | |
| 650 | 7 | |a SCIENCE |x Optics. |2 bisacsh | |
| 650 | 7 | |a TECHNOLOGY & ENGINEERING |x Mechanical. |2 bisacsh | |
| 650 | 7 | |a Holography |x Data processing |2 fast | |
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| 700 | 1 | |a Liu, Jung-Ping. |0 http://id.loc.gov/authorities/names/n2013056534 | |
| 776 | 0 | 8 | |i Print version: |a Poon, Ting-Chung. |t Introduction to modern digital holography |z 9781107016705 |w (DLC) 2013036072 |w (OCoLC)855337383 |
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| author | Poon, Ting-Chung |
| author2 | Liu, Jung-Ping |
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| author_GND | http://id.loc.gov/authorities/names/n90675413 http://id.loc.gov/authorities/names/n2013056534 |
| author_facet | Poon, Ting-Chung Liu, Jung-Ping |
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| callnumber-search | TA1542 .P66 2014eb |
| callnumber-sort | TA 41542 P66 42014EB |
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| contents | Cover; Half title; Title; Copyright; Contents; Preface; 1 Wave optics; 1.1 Maxwell's equations and the wave equation; 1.2 Plane waves and spherical waves; 1.3 Scalar diffraction theory; 1.3.1 Fresnel diffraction; 1.3.2 Fraunhofer diffraction; 1.4 Ideal thin lens as an optical Fourier transformer; 1.5 Optical image processing; Problems; References; 2 Fundamentals of holography; 2.1 Photography and holography; 2.2 Hologram as a collection of Fresnel zone plates; 2.3 Three-dimensional holographic imaging; 2.3.1 Holographic magnifications; 2.3.2 Translational distortion. Example 2.1: Holographic magnification2.3.3 Chromatic aberration; Example 2.2: Chromatic aberration calculation; 2.4 Temporal and spatial coherence; 2.4.1 Temporal coherence; 2.4.2 Coherence time and coherence length; 2.4.3 Some general temporal coherence considerations; 2.4.4 Fourier transform spectroscopy; 2.4.5 Spatial coherence; 2.4.6 Some general spatial coherence considerations; Example 2.3: Double-pinhole interference; Problems; References; 3 Types of holograms; 3.1 Gabor hologram and on-axis (in-line) holography; 3.2 Off-axis holography. Example 3.1: Determination of the offset angle and the required resolving power of the recording medium3.3 Image hologram; Example 3.2: Simulation of an image hologram; 3.4 Fresnel and Fourier holograms; 3.4.1 Fresnel hologram and Fourier hologram; Example 3.3: Simulation of a Fourier transform hologram; 3.4.2 Lensless Fourier hologram; 3.5 Rainbow hologram; Example 3.4: Simulation of a rainbow hologram simulation; Problems; References; 4 Conventional digital holography; 4.1 Sampled signal and discrete Fourier transform; Example 4.1: Under-sampling and aliasing; Example 4.2: Sampling. Example 4.3: Fourier transform of a rectangular function4.2 Recording and limitations of the image sensor; 4.2.1 Imager size; 4.2.2 Pixel pitch; 4.2.3 Modulation transfer function; 4.3 Digital calculations of scalar diffraction; 4.3.1 Angular spectrum method (ASM); Example 4.4: Diffraction of a rectangular aperture; 4.3.2 Validity of the angular spectrum method; 4.3.3 Fresnel diffraction method (FDM); 4.3.4 Validation of the Fresnel diffraction method; Example 4.5: Diffraction of a rectangular aperture (using FDM); 4.3.5 Backward propagation; 4.4 Optical recording of digital holograms. 4.4.1 Recording geometryOn-axis Fresnel holography; Off-axis Fresnel holography; Fourier holography; 4.4.2 Removal of the twin image and the zeroth-order light; Fourier holography; Off-axis Fresnel holography; Example 4.6: Recording an off-axis digital hologram; 4.5 Simulations of holographic recording and reconstruction; Example 4.7: Simulation of on-axis holographic recording and reconstruction; Example 4.8: Simulation of off-axis holographic recording and reconstruction; Problems; References; 5 Digital holography: special techniques; 5.1 Phase-shifting digital holography. |
| ctrlnum | (OCoLC)871257801 |
| dewey-full | 621.36/75 |
| dewey-hundreds | 600 - Technology (Applied sciences) |
| dewey-ones | 621 - Applied physics |
| dewey-raw | 621.36/75 |
| dewey-search | 621.36/75 |
| dewey-sort | 3621.36 275 |
| dewey-tens | 620 - Engineering and allied operations |
| discipline | Elektrotechnik / Elektronik / Nachrichtentechnik |
| format | Electronic eBook |
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Building up from the basic principles of optics, this book describes key techniques in digital holography, such as phase-shifting holography, low-coherence holography, diffraction tomographic holography and optical scanning holography, discussing their practical applications, and accompanied by all the theory necessary to understand the underlying principles at work. A further chapter covers advanced techniques for producing computer-generated holograms. Extensive Matlab code is integrated with the text throughout and available for download online, illustrating both theoretical results and practical considerations such as aliasing, zero padding and sampling. Accompanied by end-of-chapter problems and an online solutions manual for instructors, this is an indispensable resource for students, researchers and engineers in the fields of optical image processing and digital holography"--</subfield><subfield code="c">Provided by publisher</subfield></datafield><datafield tag="588" ind1="0" ind2=" "><subfield code="a">Print version record.</subfield></datafield><datafield tag="504" ind1=" " ind2=" "><subfield code="a">Includes bibliographical references and index.</subfield></datafield><datafield tag="505" ind1="0" ind2=" "><subfield code="a">Cover; Half title; Title; Copyright; Contents; Preface; 1 Wave optics; 1.1 Maxwell's equations and the wave equation; 1.2 Plane waves and spherical waves; 1.3 Scalar diffraction theory; 1.3.1 Fresnel diffraction; 1.3.2 Fraunhofer diffraction; 1.4 Ideal thin lens as an optical Fourier transformer; 1.5 Optical image processing; Problems; References; 2 Fundamentals of holography; 2.1 Photography and holography; 2.2 Hologram as a collection of Fresnel zone plates; 2.3 Three-dimensional holographic imaging; 2.3.1 Holographic magnifications; 2.3.2 Translational distortion.</subfield></datafield><datafield tag="505" ind1="8" ind2=" "><subfield code="a">Example 2.1: Holographic magnification2.3.3 Chromatic aberration; Example 2.2: Chromatic aberration calculation; 2.4 Temporal and spatial coherence; 2.4.1 Temporal coherence; 2.4.2 Coherence time and coherence length; 2.4.3 Some general temporal coherence considerations; 2.4.4 Fourier transform spectroscopy; 2.4.5 Spatial coherence; 2.4.6 Some general spatial coherence considerations; Example 2.3: Double-pinhole interference; Problems; References; 3 Types of holograms; 3.1 Gabor hologram and on-axis (in-line) holography; 3.2 Off-axis holography.</subfield></datafield><datafield tag="505" ind1="8" ind2=" "><subfield code="a">Example 3.1: Determination of the offset angle and the required resolving power of the recording medium3.3 Image hologram; Example 3.2: Simulation of an image hologram; 3.4 Fresnel and Fourier holograms; 3.4.1 Fresnel hologram and Fourier hologram; Example 3.3: Simulation of a Fourier transform hologram; 3.4.2 Lensless Fourier hologram; 3.5 Rainbow hologram; Example 3.4: Simulation of a rainbow hologram simulation; Problems; References; 4 Conventional digital holography; 4.1 Sampled signal and discrete Fourier transform; Example 4.1: Under-sampling and aliasing; Example 4.2: Sampling.</subfield></datafield><datafield tag="505" ind1="8" ind2=" "><subfield code="a">Example 4.3: Fourier transform of a rectangular function4.2 Recording and limitations of the image sensor; 4.2.1 Imager size; 4.2.2 Pixel pitch; 4.2.3 Modulation transfer function; 4.3 Digital calculations of scalar diffraction; 4.3.1 Angular spectrum method (ASM); Example 4.4: Diffraction of a rectangular aperture; 4.3.2 Validity of the angular spectrum method; 4.3.3 Fresnel diffraction method (FDM); 4.3.4 Validation of the Fresnel diffraction method; Example 4.5: Diffraction of a rectangular aperture (using FDM); 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| id | ZDB-4-EBA-ocn871257801 |
| illustrated | Not Illustrated |
| indexdate | 2024-11-27T13:25:49Z |
| institution | BVB |
| isbn | 9781107731783 110773178X 9781139061346 1139061348 9781107723658 1107723655 |
| language | English |
| oclc_num | 871257801 |
| open_access_boolean | |
| owner | MAIN DE-863 DE-BY-FWS |
| owner_facet | MAIN DE-863 DE-BY-FWS |
| physical | 1 online resource |
| psigel | ZDB-4-EBA |
| publishDate | 2014 |
| publishDateSearch | 2014 |
| publishDateSort | 2014 |
| publisher | Cambridge University Press, |
| record_format | marc |
| spelling | Poon, Ting-Chung. http://id.loc.gov/authorities/names/n90675413 Introduction to modern digital holography : with MATLAB / Ting-Chung Poon, Jung-Ping Liu. Cambridge [England], United Kingdom : Cambridge University Press, 2014. 1 online resource text txt rdacontent computer c rdamedia online resource cr rdacarrier "Get up to speed with digital holography with this concise and straightforward introduction to modern techniques and conventions. Building up from the basic principles of optics, this book describes key techniques in digital holography, such as phase-shifting holography, low-coherence holography, diffraction tomographic holography and optical scanning holography, discussing their practical applications, and accompanied by all the theory necessary to understand the underlying principles at work. A further chapter covers advanced techniques for producing computer-generated holograms. Extensive Matlab code is integrated with the text throughout and available for download online, illustrating both theoretical results and practical considerations such as aliasing, zero padding and sampling. Accompanied by end-of-chapter problems and an online solutions manual for instructors, this is an indispensable resource for students, researchers and engineers in the fields of optical image processing and digital holography"-- Provided by publisher Print version record. Includes bibliographical references and index. Cover; Half title; Title; Copyright; Contents; Preface; 1 Wave optics; 1.1 Maxwell's equations and the wave equation; 1.2 Plane waves and spherical waves; 1.3 Scalar diffraction theory; 1.3.1 Fresnel diffraction; 1.3.2 Fraunhofer diffraction; 1.4 Ideal thin lens as an optical Fourier transformer; 1.5 Optical image processing; Problems; References; 2 Fundamentals of holography; 2.1 Photography and holography; 2.2 Hologram as a collection of Fresnel zone plates; 2.3 Three-dimensional holographic imaging; 2.3.1 Holographic magnifications; 2.3.2 Translational distortion. Example 2.1: Holographic magnification2.3.3 Chromatic aberration; Example 2.2: Chromatic aberration calculation; 2.4 Temporal and spatial coherence; 2.4.1 Temporal coherence; 2.4.2 Coherence time and coherence length; 2.4.3 Some general temporal coherence considerations; 2.4.4 Fourier transform spectroscopy; 2.4.5 Spatial coherence; 2.4.6 Some general spatial coherence considerations; Example 2.3: Double-pinhole interference; Problems; References; 3 Types of holograms; 3.1 Gabor hologram and on-axis (in-line) holography; 3.2 Off-axis holography. Example 3.1: Determination of the offset angle and the required resolving power of the recording medium3.3 Image hologram; Example 3.2: Simulation of an image hologram; 3.4 Fresnel and Fourier holograms; 3.4.1 Fresnel hologram and Fourier hologram; Example 3.3: Simulation of a Fourier transform hologram; 3.4.2 Lensless Fourier hologram; 3.5 Rainbow hologram; Example 3.4: Simulation of a rainbow hologram simulation; Problems; References; 4 Conventional digital holography; 4.1 Sampled signal and discrete Fourier transform; Example 4.1: Under-sampling and aliasing; Example 4.2: Sampling. Example 4.3: Fourier transform of a rectangular function4.2 Recording and limitations of the image sensor; 4.2.1 Imager size; 4.2.2 Pixel pitch; 4.2.3 Modulation transfer function; 4.3 Digital calculations of scalar diffraction; 4.3.1 Angular spectrum method (ASM); Example 4.4: Diffraction of a rectangular aperture; 4.3.2 Validity of the angular spectrum method; 4.3.3 Fresnel diffraction method (FDM); 4.3.4 Validation of the Fresnel diffraction method; Example 4.5: Diffraction of a rectangular aperture (using FDM); 4.3.5 Backward propagation; 4.4 Optical recording of digital holograms. 4.4.1 Recording geometryOn-axis Fresnel holography; Off-axis Fresnel holography; Fourier holography; 4.4.2 Removal of the twin image and the zeroth-order light; Fourier holography; Off-axis Fresnel holography; Example 4.6: Recording an off-axis digital hologram; 4.5 Simulations of holographic recording and reconstruction; Example 4.7: Simulation of on-axis holographic recording and reconstruction; Example 4.8: Simulation of off-axis holographic recording and reconstruction; Problems; References; 5 Digital holography: special techniques; 5.1 Phase-shifting digital holography. Holography Data processing. Image processing Digital techniques. http://id.loc.gov/authorities/subjects/sh85064447 Traitement d'images Techniques numériques. digital imaging. aat SCIENCE Optics. bisacsh TECHNOLOGY & ENGINEERING Mechanical. bisacsh Holography Data processing fast Image processing Digital techniques fast Liu, Jung-Ping. http://id.loc.gov/authorities/names/n2013056534 Print version: Poon, Ting-Chung. Introduction to modern digital holography 9781107016705 (DLC) 2013036072 (OCoLC)855337383 FWS01 ZDB-4-EBA FWS_PDA_EBA https://search.ebscohost.com/login.aspx?direct=true&scope=site&db=nlebk&AN=685227 Volltext |
| spellingShingle | Poon, Ting-Chung Introduction to modern digital holography : with MATLAB / Cover; Half title; Title; Copyright; Contents; Preface; 1 Wave optics; 1.1 Maxwell's equations and the wave equation; 1.2 Plane waves and spherical waves; 1.3 Scalar diffraction theory; 1.3.1 Fresnel diffraction; 1.3.2 Fraunhofer diffraction; 1.4 Ideal thin lens as an optical Fourier transformer; 1.5 Optical image processing; Problems; References; 2 Fundamentals of holography; 2.1 Photography and holography; 2.2 Hologram as a collection of Fresnel zone plates; 2.3 Three-dimensional holographic imaging; 2.3.1 Holographic magnifications; 2.3.2 Translational distortion. Example 2.1: Holographic magnification2.3.3 Chromatic aberration; Example 2.2: Chromatic aberration calculation; 2.4 Temporal and spatial coherence; 2.4.1 Temporal coherence; 2.4.2 Coherence time and coherence length; 2.4.3 Some general temporal coherence considerations; 2.4.4 Fourier transform spectroscopy; 2.4.5 Spatial coherence; 2.4.6 Some general spatial coherence considerations; Example 2.3: Double-pinhole interference; Problems; References; 3 Types of holograms; 3.1 Gabor hologram and on-axis (in-line) holography; 3.2 Off-axis holography. Example 3.1: Determination of the offset angle and the required resolving power of the recording medium3.3 Image hologram; Example 3.2: Simulation of an image hologram; 3.4 Fresnel and Fourier holograms; 3.4.1 Fresnel hologram and Fourier hologram; Example 3.3: Simulation of a Fourier transform hologram; 3.4.2 Lensless Fourier hologram; 3.5 Rainbow hologram; Example 3.4: Simulation of a rainbow hologram simulation; Problems; References; 4 Conventional digital holography; 4.1 Sampled signal and discrete Fourier transform; Example 4.1: Under-sampling and aliasing; Example 4.2: Sampling. Example 4.3: Fourier transform of a rectangular function4.2 Recording and limitations of the image sensor; 4.2.1 Imager size; 4.2.2 Pixel pitch; 4.2.3 Modulation transfer function; 4.3 Digital calculations of scalar diffraction; 4.3.1 Angular spectrum method (ASM); Example 4.4: Diffraction of a rectangular aperture; 4.3.2 Validity of the angular spectrum method; 4.3.3 Fresnel diffraction method (FDM); 4.3.4 Validation of the Fresnel diffraction method; Example 4.5: Diffraction of a rectangular aperture (using FDM); 4.3.5 Backward propagation; 4.4 Optical recording of digital holograms. 4.4.1 Recording geometryOn-axis Fresnel holography; Off-axis Fresnel holography; Fourier holography; 4.4.2 Removal of the twin image and the zeroth-order light; Fourier holography; Off-axis Fresnel holography; Example 4.6: Recording an off-axis digital hologram; 4.5 Simulations of holographic recording and reconstruction; Example 4.7: Simulation of on-axis holographic recording and reconstruction; Example 4.8: Simulation of off-axis holographic recording and reconstruction; Problems; References; 5 Digital holography: special techniques; 5.1 Phase-shifting digital holography. Holography Data processing. Image processing Digital techniques. http://id.loc.gov/authorities/subjects/sh85064447 Traitement d'images Techniques numériques. digital imaging. aat SCIENCE Optics. bisacsh TECHNOLOGY & ENGINEERING Mechanical. bisacsh Holography Data processing fast Image processing Digital techniques fast |
| subject_GND | http://id.loc.gov/authorities/subjects/sh85064447 |
| title | Introduction to modern digital holography : with MATLAB / |
| title_auth | Introduction to modern digital holography : with MATLAB / |
| title_exact_search | Introduction to modern digital holography : with MATLAB / |
| title_full | Introduction to modern digital holography : with MATLAB / Ting-Chung Poon, Jung-Ping Liu. |
| title_fullStr | Introduction to modern digital holography : with MATLAB / Ting-Chung Poon, Jung-Ping Liu. |
| title_full_unstemmed | Introduction to modern digital holography : with MATLAB / Ting-Chung Poon, Jung-Ping Liu. |
| title_short | Introduction to modern digital holography : |
| title_sort | introduction to modern digital holography with matlab |
| title_sub | with MATLAB / |
| topic | Holography Data processing. Image processing Digital techniques. http://id.loc.gov/authorities/subjects/sh85064447 Traitement d'images Techniques numériques. digital imaging. aat SCIENCE Optics. bisacsh TECHNOLOGY & ENGINEERING Mechanical. bisacsh Holography Data processing fast Image processing Digital techniques fast |
| topic_facet | Holography Data processing. Image processing Digital techniques. Traitement d'images Techniques numériques. digital imaging. SCIENCE Optics. TECHNOLOGY & ENGINEERING Mechanical. Holography Data processing Image processing Digital techniques |
| url | https://search.ebscohost.com/login.aspx?direct=true&scope=site&db=nlebk&AN=685227 |
| work_keys_str_mv | AT poontingchung introductiontomoderndigitalholographywithmatlab AT liujungping introductiontomoderndigitalholographywithmatlab |