By Wolfgang Osten, Nadya Reingand
A finished assessment of the cutting-edge and advances within the box, whereas additionally outlining the longer term strength and improvement traits of optical imaging and optical metrology, a space of speedy development with a number of functions in nanotechnology and nanophysics. Written via the world's prime specialists within the box, it fills the distance within the present literature via bridging the fields of optical imaging and metrology, and is the single up to date source when it comes to primary wisdom, simple strategies, methodologies, purposes, and improvement trends.Content:
Chapter 1 LCOS Spatial gentle Modulators: developments and functions (pages 1–29): Grigory Lazarev, Andreas Hermerschmidt, Sven Kruger and Stefan Osten
Chapter 2 Three?Dimensional exhibit and Imaging: prestige and clients (pages 31–56): Byoungho Lee and Youngmin Kim
Chapter three Holographic tv: prestige and destiny (pages 57–94): Malgorzata Kujawinska and Tomasz Kozacki
Chapter four reveal Holography–Status and destiny (pages 95–119): Ventseslav Sainov and Elena Stoykova
Chapter five Incoherent Computer?Generated Holography for 3D colour Imaging and exhibit (pages 121–134): Toyohiko Yatagai and Yusuke Sando
Chapter 6 ways to beat the solution challenge in Incoherent electronic Holography (pages 135–161): Joseph Rosen, Natan T. Shaked, Barak Katz and Gary Brooker
Chapter 7 handling electronic Holograms and the Numerical Reconstruction technique for concentration Flexibility (pages 163–177): Melania Paturzo and Pietro Ferraro
Chapter eight Three?Dimensional Particle keep an eye on by means of Holographic Optical Tweezers (pages 179–206): Mike Woerdemann, Christina Alpmann and Cornelia Denz
Chapter nine The position of highbrow estate defense in developing company in Optical Metrology (pages 207–223): Dr. Nadya Reingand
Chapter 10 at the distinction among 3D Imaging and 3D Metrology for Computed Tomography (pages 225–238): Daniel Wei? and Michael Totzeck
Chapter eleven Coherence Holography: precept and purposes (pages 239–253): Mitsuo Takeda, Wei Wang and Dinesh N. Naik
Chapter 12 Quantitative Optical Microscopy on the Nanoscale: New advancements and Comparisons (pages 255–282): Bernd Bodermann, Egbert Buhr, Zhi Li and Harald Bosse
Chapter thirteen Model?Based Optical Metrology (pages 283–304): Xavier Colonna de Lega
Chapter 14 complicated MEMS Inspection by way of Direct and oblique resolution ideas (pages 305–326): Ryszard J. Pryputniewicz
Chapter 15 other ways to beat the solution challenge in Optical Micro and Nano Metrology (pages 327–368): Prof. Dr. Wolfgang Osten
Chapter sixteen Interferometry in Harsh Environments (pages 369–391): Jr. Armando Albertazzi G.
Chapter 17 complicated equipment for Optical Nondestructive checking out (pages 393–412): Ralf B. Bergmann and Philipp Huke
Chapter 18 Upgrading Holographic Interferometry for commercial program via electronic Holography (pages 413–437): Zoltaan Fuzessy, Ferenc Gyimesi and Venczel Borbely
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Additional info for Optical Imaging and Metrology: Advanced Technologies
Example text
Creating the appropriate elliptic polarization requires a QWP, as well as the conversion to a linearly polarized state behind the SLM. This regime has many applications ranging from wavefront control (with typically slowly varying phase functions) to dynamic computer-generated holography (with typically fast spatial variation of the phase function). In the latter case, a suitable algorithm for the creation of the phase-only hologram is required. Such computational algorithms have been adapted to match the particular needs of SLM applications in order to deal with fringe field effects, [29], optimize the speed of holographic computations [30], obtain a free choice of diffraction angles [31], and reduce the intensity fluctuations during frame-to-frame SLM update [32].
Only LC-based technology is able to modulate intensity, phase, and/or polarization because of polarization rotation and/or electrically controlled birefringence (ECB). LCOS technology [9] was developed for front- and rear- (RPTV) projection systems competing with AMLCD (active matrix LCD) and DMD. The reflective arrangement due to silicon backplane allows putting a high number of pixels in a small panel, keeping the fill factor ratio high even for micrometer-sized pixels. Optical Imaging and Metrology: Advanced Technologies, First Edition.
For higher quality microdisplays, the device can embed the input signal of lower resolution into the physical pixel matrix, filling the whole array of pixels. g. g. 3 Block diagram of microdisplay driving. LUT, lookup table; PCB, printed circuit board. resolution. Consumer products are facing the challenge of processing various digital and analog signals, always leading to a compromise in the transferred signal. , based on FPGAs –field-programmable gate array) can combine several input signals and create digital video output according to the capabilities of the display driver technology, leading to a significant design freedom in resolution (aspect ratio), frame rate, and bit depth.
