Holography Papers  - Del Mar Photonics - LiNbO3 wafers - LiNbO3 wafers and crystals online store

Del Mar Photonics offers several femtosecond lasers for application in femtosecond holography

Trestles Finesse  femtosecond Ti:Sapphire laser, Trestles Harmonic Generator and Jibe WLCG (White Light Continuum Generator)
Ti:Sapphire laser is the most popular laser used in multiphoton imaging

Mavericks femtosecond Cr:Forsterite laser, Harmonic Generator and Photonics Crystal Fiber based WLCG.
 

Femtosecond lasers based on Yb-doped media Tourmaline

Femtosecond lasers based on Er-doped fiber Tamarack and Buccaneer and ultrabroadband light source Cannon

 
  1. Imaging using volume holograms
    Sinha A, Barbastathis G, Liu WH, Psaltis D
    OPT ENG 43 (9): 1959-1972, SEP 2004
  2. Volume holographic grating-based continuously tunable optical filter
    Havermeyer F, Liu WH, Moser C,
    OPT ENG 43 (9): 2017-2021, SEP 2004
  3. Volume holographic hyperspectral imaging
    Liu W, Barbastathis G
    APP OPT, Vol. 43 (18) 3581-3599, JUN 2004
  4. Holographic recording of laser-induced plasma
    Centurion M, Pu Y, Liu Z, Haensch TW
    OPT LETT 29 (7): 772-774, APR 2004
  5. Athermal Holographic Filters
    Hsieh H-T, Panotopoulos G, Liger M, and Tai Y-C
    IEEE Photonics Letters, Vol. 16, No. 1, January 2004
  6. Comparison of Transmission and the 90-degree holographic recording geometry Yang Y, Adibi A, Psaltis D
    APPL OPT 42 (17): 3418-3427, JUN 10 2003
  7. Coherent Optical Information Systems
    Cover photo and article
     Psaltis D
    Science, Volume 298 pp 1359-1363, NOV 15, 2002
  8. Dark decay of holograms in photorefractive polymers
    Bittner R, Meerholz K, Steckman G, Psaltis D,
    APPL PHYS LETT 81 (2): 211-213 Jul 8 2002
  9. Holographic recording of fast phenomena
    Liu ZW, Steckman GJ, Psaltis D
    APPL PHYS LETT 80 (5): 731-733 FEB 4 2002 
  10. Holographic recording of fast events on a CCD camera
    Liu ZW, Centurion M, Panotopoulos G, Psaltis D
    OPT LETT 27 (1): 22-24 JAN 1 2002
  11. Holographic memory with localized recording
    Moser C, Psaltis D
    APPL OPTICS 40 (23): 3909-3914 AUG 10 2001   

  12. Storage density of shift-multiplexed holographic memory
    Steckman GJ, Pu A, Psaltis D
    APPL OPTICS 40 (20): 3387-3394 JUL 10 2001  

  13. Ionic and electronic dark decay of holograms in LiNbO3 : Fe crystals  - LiNbO3 wafers - LiNbO3 wafers and crystals online store
    Yang YP, Nee I, Buse K, Psaltis D  
    APPL PHYS LETT 78 (26): 4076-4078 JUN 25 2001   

  14. The role of carrier mobility in holographic recording in LiNbO3 - LiNbO3 wafers - LiNbO3 wafers and crystals online store
    Adibi A, Buse K, Psaltis D
    APPL PHYS B-LASERS O 72 (6): 653-659 MAY 2001  

  15. Two-center holographic recording
    Adibi A, Buse K, Psaltis D
    J OPT SOC AM B 18 (5): 584-601 MAY 2001   

  16. Theoretical analysis of two-step holographic recording with high-intensity pulses Adibi A, Buse K, Psaltis D
    PHYS REV A 63 (2): art. no. 023813 FEB 2001   

  17. Holographic multiplexing in photorefractive polymers
    Steckman GJ, Bittner R, Meerholz K, et al.
    OPT COMMUN 185 (1-3): 13-17 NOV 1 2000   

  18. Diffraction efficiency of localized holograms in doubly doped LiNbo(3) crystals Moser C, Maravic I, Schupp B, Psaltis D
    OPT LETT 25 (17): 1243-1245 SEP 1 2000   

  19. Spectral hole burning in naphthalocyanines derivatives in the region 800 nm for holographic storage applications Turukhin AV, Gorokhovsky AA, Moser C, et al.
    J LUMIN 86 (3-4): 399-405 APR 2000  

  20. Role of cerium in lithium niobate for holographic recording
    Yue XF, Adibi A, Hudson T, Psaltis D et al.
    J APPL PHYS 87 (9): 4051-4055 Part 1 MAY 1 2000   

  21. Holographic recording in a photopolymer by optically induced detachment of chromophores
    Steckman GJ, Shelkovnikov V, Berezhnaya V, Psaltis D et al.
    OPT LETT 25 (9): 607-609 MAY 1 2000     

  22. Sensitivity improvement in two-center holographic recording
    Adibi A, Buse K, Psaltis D  
    OPT LETT 25 (8): 539-541 APR 15 2000

  23. Feasibility of intraoperative corneal topography monitoring during photorefractive keratectomy
    Moser C, Kampmeier J, McDonnell P,     Psaltis D et al. 
    J REFRACT SURG 16 (2): 148-154 MAR-APR 2000  

  24. Localized holographic recording in doubly doped lithium niobate
    Moser C, Schupp B, Psaltis D  
    OPT LETT 25 (3): 162-164 FEB 1 2000

  25. Holographic random access memory (HRAM)
    Chuang E, Liu WH, Drolet JJP,     Psaltis D  
    P IEEE 87 (11): 1931-1940 NOV 1999

  26. Pixel size limit in holographic memories
    Liu WH, Psaltis D  
    OPT LETT 24 (19): 1340-1342 OCT 1 1999  

  27. Efficient non-volatile holographic recording in doubly doped lithium niobate  - LiNbO3 wafers - LiNbO3 wafers and crystals online store
    Buse K, Adibi A, Psaltis D
    J OPT A-PURE APPL OP 1 (2): 237-238 MAR 1999

  28. Effect of annealing in two-center holographic recording
    Adibi A, Buse K, Psaltis D  
    APPL PHYS LETT 74 (25): 3767-3769 JUN 21 1999

  29. Multiplexing holograms in LiNbO3 : Fe : Mn crystals
    Adibi A, Buse K, Psaltis D  
    OPT LETT 24 (10): 652-654 MAY 15 1999

  30. Thermal fixing of 10,000 holograms in LiNbO3 : Fe - LiNbO3 wafers - LiNbO3 wafers and crystals online store
    An X, Psaltis D, Burr GW  
    APPL OPTICS 38 (2): 386-393 JAN 10 1999  

  31. Characterization of phenanthrenequinone-doped poly(methyl methacrylate) for holographic memory
    Steckman GJ, Solomatine I, Zhou G,     Psaltis D
    OPT LETT 23 (16): 1310-1312 AUG 15 1998

  32. Non-volatile holographic storage in doubly doped lithium niobate crystals
    Buse K, Adibi A, Psaltis D  
    NATURE 393 (6686): 665-668 JUN 18 1998

  33. Holographic data storage
    Psaltis D, Burr GW  
    COMPUTER 31 (2): 52-+ FEB 1998  

  34. Storage of 1000 holograms with use of a dual-wavelength method
    Chuang E, Psaltis D  
    APPL OPTICS 36 (32): 8445-8454 NOV 10 1997  

  35. Real-time vehicle navigation using a holographic memory
    Pu A, Denkewalter R, Psaltis D  
    OPT ENG 36 (10): 2737-2746 OCT 1997  

  36. Holographic Data Storage In A Dx-Center Material
    Redmond IR, Linke RA, Chuang E, Psaltis D
    Opt Lett 22 (15): 1189-1191 Aug 1 1997

  37. Electrical Fixing Of 1000 Angle-Multiplexed Holograms In Sbn:75   
    Ma JA, Chang T, Hong J, Psaltis D
    Opt Lett 22 (14): 1116-1118 Jul 15 1997

  38. Compact, Integrated Dynamic Holographic Memory With Refreshed Holograms Drolet J-JP, Chuang E, Barbastathis G, Psaltis D    
    Opt Lett 22 (8): 552-554 Apr 15 1997

  39. Exposure Schedule For Multiplexing Holograms In Photopolymer Films   
    Pu A, Curtis K, Psaltis D    
    Opt Eng 35 (10): 2824-2829 Oct 1996

  40. Dense Holographic Storage Promises Fast Access   
    Hong JH, Psaltis D    
    Laser Focus World 32 (4): 119-& Apr 1996

  41. Effect Of The Oxidation State Of LiNbO3:Fe On The Diffraction Efficiency Of Multiple Holograms
    Psaltis D    Burr GW
    Opt Lett 21 (12): 893-895 Jun 15 1996

  42. System Metric For Holographic Memory Systems   
    Mok FH, Burr Gw, Psaltis D    
    Opt Lett 21 (12): 896-898 Jun 15 1996

  43. Optical Memory: Introduction By The Feature Editors
    Neifeld MA, Psaltis D, Hesselink L
    Appl Optics 35 (14): 2345-2345 May 10 1996

  44. High-Density Recording In Photopolymer-Based Holographic Three-Dimensional Disks   
    Pu A, Psaltis D    
    Appl Optics 35 (14): 2389-2398 May 10 1996

  45. Shift-Multiplexed Holographic Memory Using The Two-Lambda Method Barbastathis G, Psaltis D    
    Opt Lett 21 (6): 432-434 Mar 15 1996

  46. Holographic 3-D Disks   
    Psaltis D, Pu A    
    Optoelectron-Devices 10 (3): 333-342 Sep 1995

  47. Holographic Memories   
    Psaltis D, Mok F    
    Sci Am 273 (5): 70-76 Nov 1995

  48. Experimental Characterization Of An Angle-Multiplexed Holographic Memory 
    An X, Psaltis D
    Opt Lett 20 (18): 1913-1915 Sep 15 1995

  49. Alignment Sensitivity Of Holographic 3-Dimensional Disks  
    Li Hys, Psaltis D
    J Opt Soc Am A 12 (9): 1902-1912 Sep 1995

  50. Holographic Storage Using Shift Multiplexing 
    Psaltis D, Levene M, Pu A, Et Al.
    Opt Lett 20 (7): 782-784 Apr 1 1995

 
Del Mar Photonics

Del Mar Photonics offers several femtosecond lasers for application in femtosecond holography

Trestles Finesse  femtosecond Ti:Sapphire laser, Trestles Harmonic Generator and Jibe WLCG (White Light Continuum Generator)
Ti:Sapphire laser is the most popular laser used in multiphoton imaging

Mavericks femtosecond Cr:Forsterite laser, Harmonic Generator and Photonics Crystal Fiber based WLCG.
 

Femtosecond lasers based on Yb-doped media Tourmaline

Femtosecond lasers based on Er-doped fiber Tamarack and Buccaneer and ultrabroadband light source Cannon