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008 241028s1929    xx     er     001 0 ita d
040   $aBibl. Dip.le Aggr. Scienze Umane e Sociali$bita$cSocioculturale Scs
041 0 $aita
082 04$a945.083$223
100 1 $aRinaldi, Ruggero$0394925
245 10$aGioberti e il problema religioso del risorgimento /$cRuggero Rinaldi ; prefazione di Balbino Giuliano
260   $aFirenze :$bVallecchi,$c1929
300   $a168 p. ;$c21 cm
490 1 $aUomini e idee
600  4$aGioberti, Vincenzo$v- Pensiero religioso
700 1 $aGiuliano, Balbino
830  0$aUomini e idee
912   $a991004346105107536
996   $aGioberti e il problema religioso del risorgimento$94210568
997   $aUNISALENTO

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010   $a9781118574386
010   $a1118574389
010   $a9781118574669
010   $a1118574664
010   $a9781118574348
010   $a1118574346
035   $a(CKB)2670000000353530
035   $a(EBL)1175205
035   $a(OCoLC)843199464
035   $a(SSID)ssj0000904860
035   $a(PQKBManifestationID)11582015
035   $a(PQKBTitleCode)TC0000904860
035   $a(PQKBWorkID)10923896
035   $a(PQKB)11746491
035   $a(MiAaPQ)EBC1175205
035   $a(Perlego)1014694
035   $a(EXLCZ)992670000000353530
100   $a20131118d2013||||  u||         |
101 0 $aeng
135   $aurcnu||||||||
181   $ctxt
182   $cc
183   $acr
200 10$aOptics in Instruments $eApplications in Biology and Medicine
205   $a1st ed.
210   $aHoboken $cWiley$d2013
215   $a1 online resource (244 p.)
225 1 $aISTE
300   $aDescription based upon print version of record.
311 08$a9781848212442 
311 08$a1848212445 
327   $aCover; Title Page; Contents; Preface; Introduction; Chapter 1. Confocal Laser Scanning Microscopy; 1.1. Introduction; 1.1.1. Context and framework of chapter; 1.1.2. From wide-field microscopy to confocal microscopy; 1.2. Principle and implementation; 1.2.1. General principle; 1.2.2. Axial and lateral resolution in confocal microscopy; 1.2.3. Some notions of fluorescence; 1.2.4. Main elements of a confocal scanning laser microscope; 1.3. Applications in biology, potential and limitations; 1.3.1. Basic elements of biology for the neophyte; 1.3.2. Fluorescent labeling
327   $a1.3.3. Practical implementation of confocal microscopy1.4. Related and derived techniques; 1.4.1. Advanced contrast modes: FRAP, FLIP, FLIM, FRET, etc; 1.4.2. The contribution of nonlinear contrast modes; 1.4.3. Recent major advances: overcoming the diffraction limit; 1.5. Bibliography; Chapter 2. Flow Cytometry (FCM) Measurement of Cells in Suspension; 2.1. History of FCM; 2.2. Components of the cytometer: fluidics, optics and signal processing; 2.2.1. Fluidics; 2.2.2. Optics; 2.2.3. Signal processing; 2.3. Experimentation strategy; 2.3.1. Visualizations of the spectra
327   $a2.3.2. Compensation of fluorescences 2.3.3. Checking the optical bench; 2.3.4. Presentation of parameters A/H/W; 2.3.5. Graphical presentation; 2.4. Types of platform for FCM; 2.4.1. Clinical platform; 2.4.2. Research platform; 2.5. Principle of cell sorting; 2.6. Analyzed parameters; 2.6.1. Light scattering; 2.6.2. Fluorochromes; 2.7. Applications in biology; 2.7.1. Clinical; 2.7.2. Research; 2.7.3. Environment; 2.7.4. Plant biology; 2.7.5. Industrial microbiology; 2.8. Complementarities of the FCM with the other cytometries, confocal and dynamic; 2.9. Cytometry on beads, LUMINEXTM type
327   $a2.10. Scientific societies 2.11. Websites to visit; 2.12. Bibliography; 2.13. Reference books; Chapter 3. Optical Coherence Tomography; 3.1. Introduction; 3.2. Principles of OCT; 3.3. Frequency-domain OCT; 3.4. Spatial resolution; 3.5. Applications of OCT; 3.5.1. Ophthalmology; 3.5.2. Internal medicine; 3.5.3. Other fields of application; 3.6. Extensions of OCT; 3.7. Full-field OCT; 3.7.1. Principle; 3.7.2. Spatial resolution; 3.7.3. Dynamics and sensitivity; 3.7.4. Operating speed; 3.7.5. Applications; 3.8. Conclusion; 3.9. Bibliography; Chapter 4. Therapeutic Applications of Lasers
327   $a4.1. Introduction 4.2. Interaction of light with biological tissues; 4.2.1. Optical parameters characterizing light radiation; 4.2.2. The three types of interaction between a light beam and a biological tissue; 4.2.3. Penetration of light in biological tissues; 4.3. Therapeutic effects of lasers; 4.3.1. Thermal effect; 4.3.2. Photoablative effect; 4.3.3. Photochemical or photodynamic effect; 4.3.4. The electromechanical effect; 4.4. Conclusion; 4.5. For more information; 4.6. Bibliography; Chapter 5. Plasmonics; 5.1. Propagating surface plasmons; 5.1.1. Theoretical reminders and definitions
327   $a5.1.2. Surface plasmon resonance sensors
330   $aOptics is a science which covers a very large domain and is experiencing indisputable growth. It has enabled the development of a considerable number of instruments, the optical component or methodology of which is often the essential part of portent systems. This book sets out show how optical physical phenomena such as lasers - the basis of instruments of measurement - are involved in the fields of biology and medicine.Optics in Instruments: Applications in Biology and Medicine details instruments and measurement systems using optical methods in the visible and near-infrared,
410  0$aISTE
606   $aOptical instruments -- Equipment and supplies
606   $aOptics
606   $aOptoelectronic devices
606   $aOptical instruments$xEquipment and supplies
606   $aOptoelectronic devices
606   $aOptics
615  4$aOptical instruments -- Equipment and supplies.
615  4$aOptics.
615  4$aOptoelectronic devices.
615  0$aOptical instruments$xEquipment and supplies.
615  0$aOptoelectronic devices.
615  0$aOptics.
676   $a681.4
676   $a681/.4
700   $aGoure$b J.-P$01864532
702   $aGoure$b J.-P
801  0$bAU-PeEL
801  1$bAU-PeEL
801  2$bAU-PeEL
906   $aBOOK
912   $a9910811595603321
996   $aOptics in Instruments$94471375
997   $aUNINA