Prof. Dr. rer. nat. Hans Danielmeyer

Gastprofessor

Institut für Neuro- und Bioinformatik
Ratzeburger Allee 160 (Geb. 64)
23562 Lübeck

Email:
Phone:
+49 451 3101 5501
Fax:
+49 451 3101 5504

 

 

Latest Talk

(held on the German Physical Society's 79th spring conference in Berlin 2015 (SOE 15.1/1)

Hans G. Danielmeyer and Thomas Martinetz:

The Industrial Society's natural Sustainability. (PDF, 907K)

 

Curriculum vitae

I learned and worked in five main areas for a self-organizing sequence of five decennia:


1954-65 TH Stuttgart: Factory worker (post war condition) at A. Stotz AG (steel foundry) and AEG AG (electrical parts). Got a life shaping “Bachelor” with basic exams in five faculties: physics (just being built up), math, chemical, electrical, and mechanical engineering. 59/60 Uni Göttingen: getting an idea for law, medicine, and theology. Master and Ph.D. with the only quantum theory to date for the interaction between acoustical and optical phonons (Prof. H. Haken), proven to be correct with ultrasound absorption 15-150 MHz (Prof. H.O. Kneser) in Br2 and other molecular crystals grown with different length between piezoelectric delay lines. Built a second version for analyzing chemical suspensions in ICI’s research Lab in Welwyn, UK.


1966-75 AT&T’s Bell Labs N J, on Crawford Hill (Rudi Kompfner’s Echo Satellite antennas for Penzias & Wilson’s Nobel Prize) and in the Holmdel Lab just being built for optical communication. Designed my first laser lab with a large vibration-isolated table and a simple crystal growth facility. Final paper:

    H. G. Danielmeyer, Progress in Nd:YAG Lasers. In: Lasers, A Series of Advances IV,
    A. K. Levine and A. J. De Maria (eds), Marcel Dekker Inc., 1975

(the first handbook article on stabilizing their operational modes).

1968-71 MBA Graduate School of Rutgers University in Newark, N J (evening curriculum with ΒΓΣ . MBA thesis and consulting on corporate strategy in De Laval Turbine Inc., Trenton, N J. Invented the first laser where the active ion Nd3+ is not a small contamination but the decisive constituent of a single crystal, well shielded by the ligand fields of a non-metallic (P 5O14)3- matrix. Continued 1972-75 with an extended sabbatical during the planning time of the Max Planck Institute for Solid State Physics (Prof. Queisser). The pure Nd-crystal holds still the record of continuously amplifying light: 10-fold per optical wavelength (0.7 microns in the crystal).


1975-86 Uni Hamburg, Professor for Solid State Physics. Designed new courses with exercises and my third labs for new lasers and crystal growth. Simultaneous research contracts with the Lebedev Institute in Moscow, MIT’s Lincoln Lab in Boston, and Shandong University in Jinan as base for 45 talks on research management in China. Founded the area’s industrial “Panel for a North German Institute of Technology” (NIT). In 1977, the powerful German Science Council rejected Hamburg’s plan for a classical technical university but recommended an innovative combination of NIT’s flexible research structure with a smaller graduate version for a technical university without classical faculties. Learned architecture and civil engineering as Founding President of the new TU (reporting to the City state’s Senator H-J Sinn) and as founding CEO of Hamburg’s first technology park HIT e.V. (reporting to NIT‘s Panel as managing board). Serving for six years as member and chair for physics of the Large Project Division (SFBs) of Germany’s Research Society (DFG) in Bonn.


1987-96 Siemens AG Munich, member of the managing board. Reorganized corporate research from a holding of three classical divisions with one central sales division to 14 flexible business units with their own sales. The natural tool was a quarterly optimized matrix between central core technologies and road maps for the business unit’s markets. The longest external commitments were planning advice for the European Commission’s R&D Framework Programs 3 to 6 (1988-2004) and its ESPRIT Advisory Chair (free internet for everyone); Vice President of the Japanese-German Center Berlin (short-term presidents were former ambassadors of Japan in Germany) and member of the bi-national advisory group for both foreign ministries; 1976-2010 Fraunhofer Institute for Systems- and Innovations Research (ISI); initially it reviewed HIT’s effectiveness for Germany’s ministry of Research and Technology, thereafter I served as member of ISI’s external advisory board.


Since 2010: Quantifying the economy’s intrinsic dynamics (promised in 1971 to Paul Samuelson at the MBA graduation dinner). Final paper (invited by and dedicated to my Ph. D. advisor Prof. Haken):

    Danielmeyer H.G., Martinetz T. (2018) Industrial Society’s Natural Future. In: Meyers R. (eds),

    Encyclopedia of Complexity and Systems Science. Springer, Heidelberg, Berlin, pdf doi.

    org/10.1007/978-3-642-27737-5_704-1.


This analytic theory agrees without fitting parameter with all available data on six continuous variables for optimal G7 level recoveries from national disasters and their convergence into a collective industrial evolution. Four variables are all but immune to national disasters; three of them quantify demand, the others supply. Every per capita quantity saturates with two final trade-offs: between annual spare and working time for enjoying and generating affluence, and between increasing and maintaining the value of the accumulated physical capital. The fourth dynamic subsystem has no choice: finance must accept per capita saturation of G7 level economic growth.

Memberships

  • European Academy of Sciences and Arts
  • Royal Swedish Academy of Engineering Sciences
  • Omega Alpha Association
  • American Physical Society
  • Econometric Society
  • German Physical Society (Physical)
  • Royal Society of New South Wales (Fellow)

 

A closer look


Publikationen

2017

  • Hans G. Danielmeyer and Thomas Martinetz: Industrial Society`s Natural Future. 2017
    BibTeX Link
    @unpublished{DaMa17,
    author = {Hans G. Danielmeyer and Thomas Martinetz},
    title = {Industrial {S}ociety's {N}atural {F}uture},
    note = {To be published in the Springer Encyclopedia of Complexity and Systens Science.},
    year = {2017},
    url = {http://webmail.inb.uni-luebeck.de/inb-publications/pdfs/DaMa17.pdf},
    }
    
    

2016

  • Hans G. Danielmeyer and Thomas Martinetz: The industrial society`s intrinsic dynamics. 2016
    BibTeX Link
    @unpublished{DaMa16,
    author = {Hans G. Danielmeyer and Thomas Martinetz},
    title = {The industrial society's intrinsic dynamics},
    note = {Abstract},
    year = {2016},
    url = {http://webmail.inb.uni-luebeck.de/inb-publications/pdfs/DaMa16.pdf},
    }
    
    

2012

  • Hans G. Danielmeyer and Thomas Martinetz: A physical theory of economic groth. arXiv:1206.2494v1 [q-fin.GN], 2012
    BibTeX Link
    @article{DaMa12b,
    author = {Hans G. Danielmeyer and Thomas Martinetz},
    title = {A physical theory of economic groth},
    journal = {arXiv:1206.2494v1 [q-fin.GN]},
    year = {2012},
    url = {http://webmail.inb.uni-luebeck.de/inb-publications/pdfs/DaMa12b.pdf},
    }
    
    
  • Hans G. Danielmeyer and Thomas Martinetz: Predicting economic growth with classical physics and human biology. arXiv:1212.1286 [q-fin.GN], 2012
    BibTeX Link
    @article{DaMa12a,
    author = {Hans G. Danielmeyer and Thomas Martinetz},
    title = {Predicting economic growth with classical physics and human biology},
    journal = {arXiv:1212.1286 [q-fin.GN]},
    year = {2012},
    url = {http://webmail.inb.uni-luebeck.de/inb-publications/pdfs/DaMa12a.pdf},
    }
    
    
  • Hans G. Danielmeyer and Thomas Martinetz: The physics of business cycles and inflation. arXiv:1212.1282v1 [q-fin.GN], 2012
    BibTeX Link
    @article{DaMa12,
    author = {Hans G. Danielmeyer and Thomas Martinetz},
    title = {The physics of business cycles and inflation},
    journal = {arXiv:1212.1282v1 [q-fin.GN]},
    year = {2012},
    url = {http://webmail.inb.uni-luebeck.de/inb-publications/pdfs/DaMa12.pdf},
    }
    
    

2010

  • H. G. Danielmeyer and T. Martinetz: The Biologic Stability of the Industrial Evolution. European Review (Academia Europea), no. 18, pp. 263-268, 2010
    BibTeX Link
    @article{DaMa10,
    author = {H. G. Danielmeyer and T. Martinetz},
    title = {The {B}iologic {S}tability of the {I}ndustrial {E}volution},
    journal = {European Review (Academia Europea)},
    volume = {18},
    number = {2},
    year = {2010},
    pages = {263--268},
    url = {http://webmail.inb.uni-luebeck.de/inb-publications/pdfs/DaMa10.pdf},
    }
    
    

2009

  • H. G. Danielmeyer and T. Martinetz: An exact theory of the industrial evolution and national recovery. 2009
    BibTeX Link
    @techreport{DaMa09,
    author = {H. G. Danielmeyer and T. Martinetz},
    title = {An exact theory of the industrial evolution and national recovery},
    institution = {Institut f{\"u}r Neuro- und Bioinformatik der Universit{\"at} zu L{\"u}beck, www.inb.uni-luebeck.de},
    type = {Technical Report},
    number = {SIIM-TR-A-09-05, version 11-09},
    year = {2009},
    url = {http://webmail.inb.uni-luebeck.de/inb-publications/pdfs/DaMa09.pdf},
    }
    
    

1999

  • H. G. Danielmeyer and Y. Takeda eds.: The Company of the Future - Markets, Tools, and Strategies. Springer, 1999
    BibTeX
    @book{DaTa99,
    author = {H. G. Danielmeyer and Y. Takeda eds.},
    note = {(eds. H. G. Danielmeyer and Y. Takeda)},
    title = {The {C}ompany of the {F}uture - {M}arkets, {T}ools, and {S}trategies},
    publisher = {Springer},
    year = {1999},
    }
    
    

1997

  • H. G. Danielmeyer: The Development of the Industrial Society. European Review, no. 5, pp. 371-381, 1997
    BibTeX
    @article{Dani97b,
    author = {H. G. Danielmeyer},
    title = {The {D}evelopment of the {I}ndustrial {S}ociety},
    journal = {European Review},
    volume = {5},
    number = {4},
    pages = {371--381},
    year = {1997},
    }
    
    
  • H. G. Danielmeyer: What industry expects from science. European Review, no. 5, pp. 185-191, 1997
    BibTeX Link
    @article{Dani97a,
    author = {H. G. Danielmeyer},
    title = {What industry expects from science},
    journal = {European Review},
    volume = {5},
    number = {2},
    pages = {185--191},
    year = {1997},
    url = {http://webmail.inb.uni-luebeck.de/inb-publications/pdfs/Dani97.pdf},
    }
    
    

1996

  • H. G. Danielmeyer and T. Martinetz: Best practice code of the industrial society - the Forum Engelberg model. European Review (Academia Europea), 1996
    BibTeX
    @article{DaMa96,
    author = {H. G. Danielmeyer and T. Martinetz},
    title = {Best practice code of the industrial society - the {F}orum {E}ngelberg model},
    journal = {European Review (Academia Europea)},
    year = {1996},
    }
    
    
  • H. G. Danielmeyer and T. Martinetz: Innovation, investment, and sustainable growth. in Acta 7. Forum Engelberg, 1996
    BibTeX
    @inproceedings{DaMa96a,
    author = {H. G. Danielmeyer and T. Martinetz},
    title = {Innovation, investment, and sustainable growth},
    booktitle = {Acta 7. Forum Engelberg},
    year = {1996},
    }
    
    

1981

  • D. Pruss and G. Huber and H. G. Danielmeyer: Synchroton Radiation time-resolved Study of Lattice Changes induced by Laser Pulse Excitation. Acta Chryst., no. A73, Suppl. S, pp. C-306, 1981
    BibTeX
    @article{PrHuDa81,
    author = {D. Pruss and G. Huber and H. G. Danielmeyer},
    title = {Synchroton {R}adiation time-resolved {S}tudy of {L}attice {C}hanges induced by {L}aser {P}ulse {E}xcitation},
    journal = {Acta Chryst.},
    volume = {A73, Suppl. S},
    pages = {C-306},
    year = {1981},
    }
    
    

1980

  • G. Huber and H. G. Danielmeyer: Recent Developments in Solid State Laser Materials II: Spectroscopic and Laser Properties. in Proc. Intl. Conf. on Lasers, Orlando, 1980
    BibTeX
    @inproceedings{HuDa80,
    author = {G. Huber and H. G. Danielmeyer},
    title = {Recent {D}evelopments in {S}olid {S}tate {L}aser {M}aterials II: Spectroscopic and {L}aser {P}roperties},
    booktitle = {Proc. Intl. Conf. on Lasers, Orlando},
    year = {1980},
    }
    
    

1979

  • G. Huber and H. G. Danielmeyer: NdP5O14 and NdAl3(BO3)4 Lasers at 1.3 ym. Appl. Phys., no. 18, pp. 77, 1979
    BibTeX
    @article{HuDa79,
    author = {G. Huber and H. G. Danielmeyer},
    title = {{NdP5O14} and {NdAl3(BO3)4} {L}asers at 1.3 ym},
    journal = {Appl. Phys.},
    volume = {18},
    pages = {77},
    year = {1979},
    }
    
    

1978

  • H. D. Hattendorf and G. Huber and H. G. Danielmeyer: Efficient Cross Pumping of Nd3+ by Cr3+ in Nd(AlCr)3(BO3)4. J. Phys., no. C11, pp. 2399, 1978
    BibTeX
    @article{HaHuDa78,
    author = {H. D. Hattendorf and G. Huber and H. G. Danielmeyer},
    title = {Efficient {C}ross {P}umping of {Nd3+ by Cr3+ in Nd(AlCr)3(BO3)4}},
    journal = {J. Phys.},
    volume = {C11},
    pages = {2399},
    year = {1978},
    }
    
    
  • G. Huber and H. G. Danielmeyer: Miniature Nd3+ Lasers at 1.3 ym. in IEEE Catalogue 78, pp. 631, 1978
    BibTeX
    @conference{HuDa78,
    author = {G. Huber and H. G. Danielmeyer},
    title = {Miniature {Nd3+} {L}asers at 1.3 ym},
    booktitle = {IEEE Catalogue 78},
    pages = {631},
    year = {1978},
    }
    
    

1976

  • H. G. Danielmeyer: Efficiency and Fluorescence Quenching in of Stoichiometric Rare Earth Laser Materials. J. Luminescence, no. 12/13, pp. 179, 1976
    BibTeX
    @article{Dani76,
    author = {H. G. Danielmeyer},
    title = {Efficiency and {F}luorescence {Q}uenching in of {S}toichiometric {R}are {E}arth {L}aser {M}aterials},
    journal = {J. Luminescence},
    volume = {12/13},
    pages = {179},
    year = {1976},
    }
    
    
  • M. Sargent III and P. Toschek and H. G. Danielmeyer: Unidirectional Saturation Spectroscopy I: Theory and short Dipole Lifetime Limit. Appl. Phys., no. 11, pp. 55, 1976
    BibTeX
    @article{SaToDa76,
    author = {M. Sargent III and P. Toschek and H. G. Danielmeyer},
    title = {Unidirectional {S}aturation {S}pectroscopy I: Theory and short {D}ipole {L}ifetime {L}imit},
    journal = {Appl. Phys.},
    volume = {11},
    pages = {55},
    year = {1976},
    }
    
    

1975

  • G. Huber and W. W. Krühler and W. Bludau and H. G. Danielmeyer: Anisotropy in the Laser Performance of NdP5O14. Appl. Phys., no. 4, pp. 358, 1975
    BibTeX
    @article{HuKrBlDa75,
    author = {G. Huber and W. W. Kr{\"u}hler and W. Bludau and H. G. Danielmeyer},
    title = {Anisotropy in the {L}aser {P}erformance of {NdP5O14}},
    journal = {Appl. Phys.},
    volume = {4},
    pages = {358},
    year = {1975},
    }
    
    
  • W. W. Krühler and G. Huber and H. G. Danielmeyer and V. Nekvasil: Correlations between Site Geometries and Level Energies in the Laser System Nd1-xYxP5O14. Appl. Phys., no. 8, pp. 261, 1975
    BibTeX
    @article{KrHuDaNe75,
    author = {W. W. Kr{\"u}hler and G. Huber and H. G. Danielmeyer and V. Nekvasil},
    title = {Correlations between {S}ite Geometries and {L}evel {E}nergies in the {L}aser {S}ystem {Nd1-xYxP5O14}},
    journal = {Appl. Phys.},
    volume = {8},
    pages = {261},
    year = {1975},
    }
    
    
  • H. G. Danielmeyer: Oscillators and Amplifiers for integrated Optics. Opto-Electronics Laser, no. 75, pp. 20, 1975
    BibTeX
    @article{Dani75c,
    author = {H. G. Danielmeyer},
    title = {Oscillators and {A}mplifiers for integrated {O}ptics},
    journal = {Opto-Electronics Laser},
    volume = {75},
    pages = {20},
    year = {1975},
    }
    
    
  • G. Huber and W. B. Holzapfel and H. G. Danielmeyer: Pressure Effects on the Eu3+-Fluorescence in Europium Pentaphosphate. in Europhys. Conf. Abstracts 1A, pp. 94, 1975
    BibTeX
    @conference{HuHoDa75,
    author = {G. Huber and W. B. Holzapfel and H. G. Danielmeyer},
    title = {Pressure {E}ffects on the {Eu3+}-{F}luorescence in {E}uropium {P}entaphosphate},
    booktitle = {Europhys. Conf. Abstracts 1A},
    pages = {94},
    year = {1975},
    }
    
    
  • H. G. Danielmeyer: Progress in Nd:YAG Lasers. in Lasers, A Series of Advances IV, Marcel Deccer Inc., 75,
    BibTeX
    @inproceedings{Dani75a,
    author = {H. G. Danielmeyer},
    title = {Progress in {Nd:YAG Lasers}},
    booktitle = {Lasers, {A Series of Advances IV}},
    editor = {A. K. Levine and A. J. DeMaria},
    publisher = {Marcel Deccer Inc.},
    year = 1975,
    note = {Also Habilitation},
    }
    
    
  • H. G. Danielmeyer: Stoichiometric Laser Materials. in Festkörperprobleme XV - Advances in Solid State Physics, Vieweg, 1975
    BibTeX
    @incollection{Dani75b,
    author = {H. G. Danielmeyer},
    title = {Stoichiometric {L}aser {M}aterials},
    booktitle = {Festk{\"o}rperprobleme XV - Advances in Solid State Physics},
    editor = {H. J. Queisser},
    publisher = {Vieweg},
    year = {1975},
    }
    
    

1974

  • G. Huber and J. P. Jeser and W. W. Krühler and H. G. Danielmeyer: Laser Action in Pentaphosphate Crystals. IEEE J. Quantum Electr., no. 1O, pp. 766, 1974
    BibTeX
    @article{HuJeKrDa74,
    author = {G. Huber and J. P. Jeser and W. W. Kr{\"u}hler and H. G. Danielmeyer},
    title = {Laser {A}ction in {P}entaphosphate {C}rystals},
    journal = {IEEE J. Quantum Electr.},
    volume = {1O},
    pages = {766},
    year = {1974},
    }
    
    
  • H. G. Danielmeyer and J. P. Jeser and E. Schönherr and W. Stetter: The Growths of Laser Quality NdP5O14 Crystals. J. Crystal Growth, no. 22, pp. 298, 1974
    BibTeX
    @article{DaJeScSt74,
    author = {H. G. Danielmeyer and J. P. Jeser and E. Sch{\"o}nherr and W. Stetter},
    title = {The Growths of {L}aser {Q}uality {NdP5O14} {C}rystals},
    journal = {J. Crystal Growth},
    volume = {22},
    pages = {298},
    year = {1974},
    }
    
    
  • H. G. Danielmeyer and W. N. Leiboldt: Ultrastable Tunable Single Frequency Nd: YAG Laser. Appl. Phys., no. 3, pp. 193, 1974
    BibTeX
    @article{DaLe74,
    author = {H. G. Danielmeyer and W. N. Leiboldt},
    title = {Ultrastable {T}unable {S}ingle {F}requency {Nd: YAG Laser}},
    journal = {Appl. Phys.},
    volume = {3},
    pages = {193},
    year = {1974},
    }
    
    

1973

  • H. G. Danielmeyer and G. Huber and W. W. Krühler and J. P. Jeser: Continuous Oscillation of a (Sc,Nd)-Pentaphosphate Laser with 4 Milliwatts Pump Threshold. Appl. Phys., no. 2, pp. 335, 1973
    BibTeX
    @article{DaHuKrJe73,
    author = {H. G. Danielmeyer and G. Huber and W. W. Kr{\"u}hler and J. P. Jeser},
    title = {Continuous {O}scillation of a {(Sc,Nd)-Pentaphosphate} {L}aser with 4 {M}illiwatts {P}ump {T}hreshold},
    journal = {Appl. Phys.},
    volume = {2},
    pages = {335},
    year = {1973},
    }
    
    
  • M. Blätte and H. G. Danielmeyer and R. Ulrich: Energy Transfer and the complete Level System of NdUP. Appl. Phys., no. 1, pp. 275, 1973
    BibTeX
    @article{BlDaUl73,
    author = {M. Bl{\"a}tte and H. G. Danielmeyer and R. Ulrich},
    title = {Energy {T}ransfer and the complete {L}evel {S}ystem of {NdUP}},
    journal = {Appl. Phys.},
    volume = {1},
    pages = {275},
    year = {1973},
    }
    
    
  • H. G. Danielmeyer and M. Blätte and P. Palmer: Fluorescence Quenching in Nd:YAG. Appl. Phys., no. 1, pp. 269, 1973
    BibTeX
    @article{DaBlBa73,
    author = {H. G. Danielmeyer and M. Bl{\"a}tte and P. Palmer},
    title = {Fluorescence {Q}uenching in {Nd:YAG}},
    journal = {Appl. Phys.},
    volume = {1},
    pages = {269},
    year = {1973},
    }
    
    
  • H. P. Weber and T. C. Damen and H. G. Danielmeyer and B. C. Tofield: Nd-Ultraphosphate Laser. Appl. Phys. Lett., no. 22, pp. 534, 1973
    BibTeX
    @article{WeDaDaTo73,
    author = {H. P. Weber and T. C. Damen and H. G. Danielmeyer and B. C. Tofield},
    title = {Nd-{U}ltraphosphate {L}aser},
    journal = {Appl. Phys. Lett.},
    volume = {22},
    pages = {534},
    year = {1973},
    }
    
    
  • W. W. Krühler and J. P. Jeser and H. G. Danielmeyer: Properties and Laser Oscillation of the (Nd,Y)-Pentaphosphate System. Appl. Phys., no. 2, pp. 329, 1973
    BibTeX
    @article{KrJeDa73,
    author = {W. W. Kr{\"u}hler and J. P. Jeser and H. G. Danielmeyer},
    title = {Properties and {L}aser {O}scillation of the {(Nd,Y)-Pentaphosphate System}},
    journal = {Appl. Phys.},
    volume = {2},
    pages = {329},
    year = {1973},
    }
    
    

1972

  • H. G. Danielmeyer and F. W. Ostermayer Jr.: Diode Pump modulated Nd: YAG Laser,1.. Appl. Phys., no. 43, pp. 2911, 1972
    BibTeX
    @article{DaOs72,
    author = {H. G. Danielmeyer and F. W. Ostermayer Jr.},
    title = {Diode {P}ump modulated {Nd: YAG Laser,1.}},
    journal = {Appl. Phys.},
    volume = {43},
    pages = {2911},
    year = {1972},
    }
    
    
  • H. G. Danielmeyer and H. P. Weber: Fluorescence in Neodymium Ultraphosphate. IEEE J. Qiantum Electr., no. QE-8, pp. 805, 1972
    BibTeX
    @article{DaWe72,
    author = {H. G. Danielmeyer and H. P. Weber},
    title = {Fluorescence in {N}eodymium {U}ltraphosphate},
    journal = {IEEE J. Qiantum Electr.},
    volume = {QE-8},
    pages = {805},
    year = {1972},
    }
    
    

1971

  • H. G. Danielmeyer and H. P. Weber: Direct Measurement of the Group Velocity of Light. Phys. Rev., no. 3A, pp. 1708, 1971
    BibTeX
    @article{DaWe71,
    author = {H. G. Danielmeyer and H. P. Weber},
    title = {Direct {M}easurement of the {G}roup {V}elocity of {L}ight},
    journal = {Phys. Rev.},
    volume = {3A},
    pages = {1708},
    year = {1971},
    }
    
    
  • H. G. Danielmeyer and E. H. Turner: Electrooptic Elimination of spectral Hole burning in Lasers. Appl. Phys. Lett., no. 17, pp. 519, 1971
    BibTeX
    @article{DaTu71,
    author = {H. G. Danielmeyer and E. H. Turner},
    title = {Electrooptic {E}limination of spectral {H}ole burning in Lasers},
    journal = {Appl. Phys. Lett.},
    volume = {17},
    pages = {519},
    year = {1971},
    }
    
    
  • H. G. Danielmeyer and J. M. Barro: Laser Pump Cavity with Conical Geometry. Appl. Opt., no. 10, pp. 1983, 1971
    BibTeX
    @article{DaBa71,
    author = {H. G. Danielmeyer and J. M. Barro},
    title = {Laser {P}ump {C}avity with {C}onical {G}eometry},
    journal = {Appl. Opt.},
    volume = {10},
    pages = {1983},
    year = {1971},
    }
    
    

1970

  • H. G. Danielmeyer: Aperture corrections for Sound Absorption Measurements with Light Scattering. J. Acoust. Soc. Am., no. 47, pp. 151, 1970
    BibTeX
    @article{Dani70b,
    author = {H. G. Danielmeyer},
    title = {Aperture corrections for {S}ound {A}bsorption {M}easurements with {L}ight {S}cattering},
    journal = {J. Acoust. Soc. Am.},
    volume = {47},
    pages = {151},
    year = {1970},
    }
    
    
  • H. G. Danielmeyer: Low Frequency Dynamics of homogeneously broadened Four-Level CW Lasers. J. Appl. Phys., no. 41, pp. 4014, 1970
    BibTeX
    @article{Dani70c,
    author = {H. G. Danielmeyer},
    title = {Low {F}requency {D}ynamics of homogeneously broadened {F}our-{L}evel {CW} {L}asers},
    journal = {J. Appl. Phys.},
    volume = {41},
    pages = {4014},
    year = {1970},
    }
    
    
  • H. P. Weber and H. G. Danielmeyer: Multimode Effects in Intensity Correlation Measurements. Phys. Rev., no. 2A, pp. 2074, 1970
    BibTeX
    @article{WeDa70,
    author = {H. P. Weber and H. G. Danielmeyer},
    title = {Multimode {E}ffects in {I}ntensity {C}orrelation {M}easurements},
    journal = {Phys. Rev.},
    volume = {2A},
    pages = {2074},
    year = {1970},
    }
    
    
  • H. G. Danielmeyer and W. G Nilsen: Spontaneous Single Frequency Output from a spatiually homogeneous Nd:YAG Laser. Appl. Phys. Lett., no. 16, pp. 124, 1970
    BibTeX
    @article{DaNi70,
    author = {H. G. Danielmeyer and W. G Nilsen},
    title = {Spontaneous {S}ingle {F}requency {O}utput from a spatiually homogeneous {Nd:YAG Laser}},
    journal = {Appl. Phys. Lett.},
    volume = {16},
    pages = {124},
    year = {1970},
    }
    
    
  • H. G. Danielmeyer: Stabilized efficient single Frequency Nd: YAG Laser. IEEE J Quantum Electr., no. QE-6, pp. 101, 1970
    BibTeX
    @article{Dani70a,
    author = {H. G. Danielmeyer},
    title = {Stabilized efficient single {F}requency {Nd: YAG Laser}},
    journal = {IEEE J Quantum Electr.},
    volume = {QE-6},
    pages = {101},
    year = {1970},
    }
    
    

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