Sune Svanberg

2014-03-20 10:46:36   来源:    点击:

  Sune Svanberg男,瑞典人,华南师范大学特聘教授(Part-time)、博士和硕士研究生导师。瑞典皇家科学院(Royal Academy of Sciences)和瑞典皇家工程院(Royal Academy of Engineering Sciences)两院院士(曾任诺贝尔奖物理评奖委员会委员10年,其中2年担任主席)。1967年~1973年在哥德堡大学任副研究员;1974年~1979年在哥德堡大学任副教授;1980年~2009年在隆德大学任教授,原子物理组组长;1995年~2010年在隆德大学任隆德激光中心主任;2011年至今,担任华南师范大学特聘教授(part-time)。研究方向主要包括激光雷达 (LIDAR,Light Detection And Ranging)、生物医学光学(Biomedical Optics)和气体散射介质吸收光谱(Gas in Scattering Media Absorption Spectroscopy,GASMAS).著有大量科研论文和获得多项学术专利。最早提出用荧光诊断用光动能疗法治疗癌症的课题组之一,在北欧最早实现了高次谐波的产生,并在世界上最早实现了人体时闸光波透射成像,带领团队开发了北欧第一个激光雷达车载系统。在多光谱成像和荧光诊断等领域都保持着世界领先水平。Sune Svanberg院士主持瑞典研究基金会的 “用激光光谱方法探测物质状态”大型项目(总额6000多万元),孵化出多个产业化公司。曾获得多项荣誉:2010年获皇家工程学院大金勋章;2010年获得瑞典皇家科学院“the Adelskold Medal”勋章和瑞典皇家工程院(Royal Academy of Engineering Sciences)的“the Large Gold Medal”(大金勋章;最高荣誉)。现任的学术兼职有:立陶宛科学学院和比利时皇家科学院的外籍院士;第三世界科学院(TWAS)的副研究员;浙江大学、吉林大学和哈尔滨工业大学名誉教授;美国物理学会和光学学会的会士。

研究方向:
主要包括:
    (1) 激光雷达 (LIDAR,Light Detection And Ranging).
    (2) 生物医学光学(Biomedical Optics).
    (3) 气体散射介质吸收光谱(Gas in Scattering Media Absorption Spectroscopy,GASMAS).
 
科研论文:
  1. L. Pantani, G. Cecchi, D. Lognoli, I. Mochi, V. Raimondi, D. Tirelli, M. Trambusti, G. Valmori, P. Weibring, H. Edner, T. Johansson, and S. Svanberg, Lithotypes Characterization with a Fluorescence Lidar Imaging System using a Multi-Wavelength Excitation Source, Proc. SPIE 4886 , 151 (2003).
  2. D. Lognoli, G. Cecchi, L. Pantani, V. Raimondi,  R. Chiari, Th. Johansson, P. Weibring, H. Edner and S. Svanberg, Fluorescence  Lidar Imaging of the Parma Cathedral and Batistery, Appl. Physics B 76 , 1 (2003).
  3. P. Weibring, H. Edner and S. Svanberg, Vers atile Mobile Lidar System for Environmental Monitoring,  Applied Optics 42 , 3583 (2003).
  4. H.L. Xu, Z.K. Jiang and S. Svanberg, Lifetime Measurements in Neutral Erbium using Time-Resolved Laser Spectroscopy, Phys. Scripta 67, 64 (2003).
  5. G. Cecchi, M. Bazzani, C. Cucci, D. Lognoli, I. Mochi, L. Pantani,V. Raimondi, R. Carlà, R. Cappadona, B. Breschi, D. Novelli , T. Johansso n, P. Weibring, H. Edner, and S. Svanberg, Probing the Marine Environment with Fluorescence Lidars - Evaluation of Three Fluorosensors in a Field Campaign,  CNR Scientific Report RR/OST/01.03 (2003).
  6. S. Svanberg, Laser Spectroscopy in Development, Europhysics News 33 , March/April 2002, p. 52.
  7. I. Wängberg, H. Edner,  R. Ferrara, E. Lanzillotta,J. Munthe, J. Sommar, S. Svanberg, M. Sjöholm,  and P. Weibring, Mercury Emissions from a Chlor-alkali Plant in Sweden, Science of the Total Env.  304, 29 (2003).
  8. J. Johansson, S. Folestad, M. Josefson, A. Sparén, C. Abrahamsson, S. Andersson-Engels and  S. Svanberg, Time-Resolved NIR/VIS Spectroscopy for  Analysis of Solids: Pharmaceutical Tablets,Appl. Spectrosc.  56 , 725 (2002).
  9. Z.G. Zhang, S. Svanberg. P. Palmeri, P. Quinet and E. Biemont, Measurement of Lifetimes by Laser-Induced Fluorescence and Determination of Transition Probabilities of Astrophysical Interest in Nd III, Astron. Astrophys. 385, 724 (2002).
  10. Z.G. Zhang, S. Svanberg, P. Quinet, P. Palmeri and E. Biemont, Time-Resolved Spectroscopy of Multiply Ionized Atoms – Natural Radiative Lifetimes in Ce IV, Phys. Rev. Lett. 87, 273001 (2001).
  11. S. Svanberg, Some Applications of Ultrashort Laser Pulses in Biology and Medicine, Meas. Sci. Technology 12 , 1777 (2001).
  12. S. Svanberg, Electromagnetic Radiation in Scattering Media – Spectroscopic Aspects, in  Progress in Nonlinear Science , Vol II, Ed. A.G. Litvak (Univ. of Nizhny Novgorod, N. Novgorod, 2002) p.429.
  13. S.Svanberg, Geophysical Gas Monitoring using Optical  Techniques: Volcanoes, Geothermal Fields and Mines, Optics and Lasers in Engineering  37 , 245 (2002).
  14. S. Svanberg, Environmental and Medical Applications of Laser Spectroscopy, Proc. 1st Saudi Science Conference: Chemistry (KFUPM  Press, Dhahran 2001), p. 9.
  15. G. Somesfalean, M. Sjöholm, J. Alnis, C. af Klinteberg, S. Andersson-Engels and  S. Svanberg, Concentration measurement of gas imbedded in scattering media employing time and spatially resolved techniques, Appl. Optics 41, 3538 (2002).
  16. L. Pantani, G. Ballerini. G, Cecchi, E. Edner, D. Lognoli, T. Johansson, V. Raimondi, S. Svanberg, P. Tiano, L. Tomaselli and P. Weib ring, Experiments on stony monument monitoring by laser-induced fluorescence, J. Cult. Heritage 1 , 345 (2000).
  17. P. Weibring, Th. Johansson, H. Edner, and S. Svanberg, B. Sundnér, V. Raimondi, G. Cecchi, and L. Pantani, Fluorescence Lidar Imaging of Historical Monuments, Applied Optics 40, 6111 (2001).
  18. M. Sjöholm, G. Somesfalean, J. Alnis, S. Andersson-Engels, and S. Svanberg, Analysis of Gas Dispersed in Scattering Solids and Liquids, Opt. Lett. 26, 16 (2001).
  19. U. Gustafsson, J. Sandsten, and S. Svanberg, Simultaneous Detection of Methane, Oxygen and Water Vapour Utilizing Near-Infrared Diode Lasers in Conjunction with Difference Frequency Generation, Appl. Phys. B  71 , 853 (2000).
  20. U. Gustafsson, G. Somesfalean, J. Alnis and S.Svanberg, Frequency Modulation Spectroscopy with Blue Diode Lasers, Appl. Optics 39 , 3774 (2000).
  21. J. Alnis, U. Gustafsson, G. Somesfalean and S. Svanberg, Sum-frequency Generation with a Blue Diode Laser for Mercury Spectroscopy at 254 nm, Appl. Phys. Lett. 76 , 1234 (2000).
  22. P. Weibring, G. Cecchi, H. Edne r, T. Johansson, L. Pantani,  V. Raimondi, B. Sundnér, and   S. Svanberg, Non Destructive Control of Historical Buildings by Fluorescence Lidar, Proc.   6th Int. Conf. on Non-Destructive Testing and Microanalysis for the Diagnostics and Conservation of the Cultural ane Environmenta l Heritage, Rome May 17-20, 1999, p. 431.
  23. P. Weibring, H. Edner, S. Svanberg, G. Cecchi,  L. Pantani, R. Ferrara and T. Caltabiano, Monitoring of Volcanic Sulphur Dioxide Emissions using Differential Absorption Lidar (DIAL), Differential Optical Absorption Spectroscopy (DOAS) and Correlation Spectroscopy (COSPEC), Appl. Phys. B. 67, 419 (1998).
  24. R. Ferrara, B. Mazzolai, H. Edner, S. Svanberg , and  E. Wallinder, Atmo spheric Mercury Sources in the Mt. Amiata Area, Italy, Science Total Envir.  213, 13 (1998).
  25. P. Weibring, M. Andersson, H. Edner and S. Svanberg, Remote Monitoring of Industrial Emissions by Combination of Lidar and Plume Velocity Measurements, Appl. Phys. B66, 383 (1998).
  26. M. Andersson, G. Cecchi, H. Edner, J. Johansson, L. Pantani, V. Raimondi, B. Sundnér, S. Svanberg and P. Weibring, Joint Experiment on Remote Sensing of Stony Monuments by Imaging Fluorescence Lidars, CNR-IROE Report RR/TLA/08.97 (1997).
  27. S. Svanberg, High Power Lasers and their Applications,  Adv.  Quant. Chem.  30, 209 (1998).
  28. K. Herrlin, C. Tillman, M. Grätz, C. Olsson, H. Pettersson, G. Svahn, C.-G. Wahlström and    S.Svanberg, Contrast-Enhanced Radiography by Differential Absorption Using a Laser-Produced X-ray Source, Invest. Radiology 32 , 306 (1997).
  29. S. Svanberg, New Developments in Laser Medicine, Phys. Scr. T72 , 69 (1997).
  30. T. Starczewski, J. Steingruber, S. Borgström,  U. Litzén, E. Fill, C.-G. Wahlström and S. Svanberg, Spectroscopic Studies in the Soft X-ray Region Using a Femtosecond Terawatt Laser, IOP Conf. Ser. 151, 237 (1996).
  31. M. Andersson, H. Edner, J. Johansson, S. Svanberg, E. Wallinder and P. Weibring, Remote Sensing of the Environment using Laser Radar Techniques, in Atomic Physics Methods in Modern Research, K. Jungmann, J. Kowalski, I. Reinhardt and F. Träger (eds), Springer-Verlag, 1997, p. 257.
  32. S. Svanberg, Real-world Applications of Laser Spectroscopy, Opt. Photonics News, Sept. 1996, p.
  33. P. Engst, F. Janouch, J. Keder, M. Andersson, H. Edner, M. Hessman S. Svanberg and E. Wallinder, Co Dokaze LIDAR: Strucna Zprava z Mereni Ovzdusi v Ceske Republice Ceskoslovensky Casopis pro Fyiku 45 , 216 (1995). (in Czech).
  34. S. Svanberg, M. Grätz, K. Herrlin, I. Mercer, A. Persson, C. Tillman, and C.-G. Wahlström, Application of Ultrashort X-Ray Pulses to Biological and Medical Imaging, Ultrafast Processes in Spectroscopy, O. Svelto, S. de Silvresti and G. Denardo (eds), Plenum, N.Y. 1996, p. 483.
  35. S. Svanberg, M. Andersson, P. Andersson, H. Edner, J. Johansson, R. Ferrara, E. Maserti, G. Cecchi, L. Pantani, P. Mazzinghi, L. Alberotanza, R. Cioni and T. Caltabiano, Laser Monitoring of the Environment, Laser Spectro scopy XII, Eds M. Inguscio, M. Allegrini and A. Sasso (World Scientific, Singapore 1996), p. 423.
  36.S . Svanberg, Chemical Sensing with Laser Spectroscopy, Sensors and Actuators B33, 1 (1996).
  37. S. Svanberg, Fluorescence Lidar Monitoring of Vegetation Status, Phys. Scripta T58 , 79 (1995).
  38. H. Edner, P. Ragnarson, S. Svanberg, E. Wallinder, R. Ferra ra, R. Cioni, B. Raco and G. Taddeucci, Total Fluxes of Sulphur Dioxide from the Italian Volcanoes Etna, Stromboli and Vulcano Measured by Differential Absorption Lidar and Passive Differential Optical Absorption Spectroscopy, J. Geophys. Res.  99 , 18827 (1994).
  39. S. Svanberg, S. Andersson-Engels, R. Berg, S. Borgström, J. Carlsson, B. Erlandsson, H.M. Hertz, J. Larsson, A. Persson, W. Persson, S. -G. Pettersson, T. Starczewski, C. Tillman, C.-G.Wahlström, R. Zerne, K. Herrlin, C. Olsson, H. Pettersson, G. Svahn, P.Balcou, A. L'Huillier, P. Salieres, M.H.R. Hutchinson, J.W.G. Tisch and R.A. Smith, Applications of Terawatt Lasers, T.F. Gallagher (ed.), Laser Spectroscopy XI (1994).
  40. H. Edner, J. Johansson, S. Svanberg and E. Wallinder, Fluorescence Lidar Multi-Color Imaging of Vegetation, Appl. Optics 33 , 2471 (1994).
  41. S.Svanberg, Differential Absorption Lidar (DIAL), in Air Monitoring by Spectroscopic Techniques, M. Sigrist (ed), Wiley, N.Y. 1994.
  42. H. Edner, P. Ragnarson, S. Svanberg and E. Wallinder, Remote Sensing of Pollutant Fluxes using Differential Absorption Lidar, Houston, 1992.
  43. L. Baert, R. Berg, B. Van Damme, M.A. d'Hallewin, J. Johansson, K. Svanberg and S. Svanberg, Clinical Fluorescence Diagnosis of Human Bladder Carcinoma Following Low-Dose Photofrin Injection, SPIE 1525 , 1991, p. 385.
  44. K. Svanberg and S. Svanberg, Laser Sp ectroscopy in Medicine, La Recherche  255, 686 (1993).
  45. S. Svanberg, Medical Applications of Laser Spectroscopy, Physica Scripta T26, 90 (1989).
  46. S. Svanberg, Laser Spectroscopy Applied in Energy, Environmental and Medical Research, Appl. Phys. B46, 271 (1988).
  47. S.Svanberg, Medical Diagnostics using Laser-Induced Fluorescence, Phys. Scripta  T19 , 469 (1987).
  48. S. Svanberg, G.Y. Yan, T.P. Duffey, W.M. Du, T.W. Hänsch and A.L. Schawlow, Saturation Spectroscopy for Optically Thick Atomic Samples, J. Opt. Soc. Amer. B4, 462 (1987).
  49. S. Svanberg, G.Y. Yan, T.P. Duffey and A.L. Schawlow, High-Contrast Doppler-Free Transmission Spectroscopy, Opt. Lett. 11, 138 (1986).
  50. S. Svanberg, Laser Technology in Atmospheric Pollution Monitoring, in B.C. Tan (ed.), Applied Physics - Laser and Plasma Technology (World Science, Singapore 1985) p. 528 – 548.
  51. S. Svanberg, Perturbations in Rydberg Sequences Probed by Lifetime, Zeeman-effect and Hyperfine-Structure Measurements, Laser Spectroscopy V, ed. by A.R.W. McKellar, T. Oka, B.P. Stoicheff (Springer, Berlin, Heidelberg 1981) p. 301.
 
科研项目(部分):
  1. S. Svanberg, Differential absorption lidar, Chapter 3 of   Air Pollution Monitoring with Optical Techniques, M. Sigrist (ed.) (Wiley, New York 1993)
  2. K. Svanberg and S. Svanberg,  Le Laser en Medicine, La Recherche  255, 686 (1993) 
  3. S. Svanberg, Some applications of ultrashort laser pulses in biology and medicine, Meas. Sci. Technology 12, 1777  (2001) 
  4. S. Svanberg, Tissue diagnostics using lasers, Chap. 6 in  Lasers in Medicine,  ed. R. Waynant (CRC Press, Boca Raton 2002), p. 135-169
 
 
专利情况:
  1. Gas correlation lidar (H. Edner, S. Svanberg, L. Unéus, W. Wendt). Swedish patent SE 450 913, European patent EP 190280, WO 8601295
  2. Active flash-lamp-based system  for measurements of air pollutants (H. Edner, S. Svanberg, L. Unéus, W. Wendt) Swedish patent application SE 8502705
  3. Multi-colour fluorescence imaging (S. Montán, S. Svanberg). Swedish patent SE 455 646. US patent 4,786,813 
  4. Imaging fluorescence diagnostic system -  Multi-colour imaging using prism deflection (S. Svanberg), Swedish patent application 9302147-5
  5. Imaging fluorescence device with tuneable detection (S. Svanberg, S. Montán)  Swedish patent application  9301313-4
  6. Diagnosis by means of fluorescent light emission from tissue (S. Andersson-Engels,  J. Johansson, U. Stenram, K. Svanberg, S. Svanberg), Swedish patent, US patent 5,115,137
  7. Fluorescence diagnostics of cancer using  δ-amino levulinic acid (R. Berg, J. Johansson, K. Svanberg, S. Svanberg), Swedish patent application 9103837-2, International patent application PCT/SE92/00879
  8. Detectors for separation processes (S. Birnbaum, J. Johansson, P.O. Larsson, A. Miyabayashi, K. Mosbach, S. Nilsson, S. Svanberg, K.G. Wahlund) Swedish patent SE 9201089,  European patent 666982, US patent 5627643 
  9. Colour Night Vision (S. Svanberg, J. Johansson), Swedish Patent SE 468 414, US Patent 5,483,379,  European Patent 0584163, Japanese, Korean and Canadian patent pending.
  10. Novel X-Ray Spectrometry method based on differential absorption (S. Svanberg, A. Göransson,
A. Persson, C. Tillman, C.-G. Wahlström). Swedish Patent  9400848-9
  11. Method for multiple fibre interstitial photodynamic therapy (S . Svanberg, Stefan Andersson-Engels, R. Berg, J. Johansson, K. Svanberg ) Swedish Patent 503 408
  12. Tissue transillumination using interfering diffusive waves (S. Andersson-Engels, R. Berg, Ch. Lindquist, A. Pifferi, S. Svanberg) Swedish Patent Application 1995
  13. Quantitative imaging of gas emissions using optical techniques (J. Sandsten, P. Weibring, H. Edner, S. Svanberg) Swedish Patent Application 1999, International Patent Application 2000
  14. P.E. Andersen, P.M. Petersen, E. Samsoe Andersen, S. Svanberg, K. Svanberg, and S. Andersson-Engels, Laser System for Treatment and Diagnosis, Danish Patent Application PA 2001 00936, International Patent Application
  15. Ch. Abrahamsson, S. Andersson-Engels, S. Folestad, J. Johansson and S. Svanberg, New Measuring Technique, Swedish Patent Application 010004-0
  16. S. Svanberg, S. Andersson-Engels, and K. Svanberg, Distributor for radiation, Swedish Patent Application 0103771-2
  17. J. Johansson, S. Folestad, S. Svanberg, M. Sjöholm, G. Somesfalean, Ch. Abrahamsson and S. Andersson-Engels, Method of analyzing a pharmaceutical sample, Patent application 2002-05-07
  18. S. Svanberg, M. Sjöholm and G. Somesfalean, Method and equipment for the investigation of gas and liquid transport  through surface barriers, Swedish Patent Application 0201359-7  (2002); PCT Application 2003
  19. Th. Johansson, Ch. Eker, S. Svanberg, Translational distributor for radiation, PCT Patent application 2003
  20. M. Soto Thompson, S. Andersson-Engels and S. Svanberg, Electro-optical distributor for radiation, PCT Patent Application, 2003
  21. Ann Johansson, S. Andersson-Engels, T. Johansson, S. Pålsson, M. Soto Thompson, K. Svanberg and S. Svanberg, Combinatory distributor for radiation, PCT Patent Application 2003
  
联系方式:sune.svanberg@coer-scnu.org