January 2018 References

1. G. Overton, A. Nogee, D. Belforte, and C. Holton, “Where have all the lasers gone?” Laser Focus World, 53, 1, 32–52 (Jan. 2017); https://goo.gl/cafgPi.

2. See https://goo.gl/opymuQ.

3. See https://goo.gl/tjykSD.

4. A. Thoss, "Good times for German tool makers as Industry 4.0 gains traction," Laser Focus World online (Sept. 26, 2017); https://goo.gl/E4EKaK.

5. See https://goo.gl/6Tm3NZ.

6. See https://goo.gl/qMWDZ4.

7. A. Thoss, "Four laser companies to exceed $1 billion revenue in 2016," Laser Focus World online (Dec. 16, 2016); https://goo.gl/wdnbnK.

8. See https://goo.gl/VijfoC.

9. See https://goo.gl/k42vMP.

10. See https://goo.gl/zBK5u9.

11. See https://goo.gl/fbZsF8.

12. See https://goo.gl/qJXXzn.

13. See https://goo.gl/GhoC2A.

14. See https://goo.gl/UFD8RE.

15. See https://goo.gl/1RhQj1.

16. See https://goo.gl/5dAh1P.

17. See https://goo.gl/bzbq7i.

18. See https://goo.gl/658eLU.

19. See https://goo.gl/r6Ft2M.

20. See https://goo.gl/rqNwbX.

21. See https://goo.gl/XZ36SP.

22. See https://goo.gl/BQDeKy.

23. See https://goo.gl/k79a1o.

24. C. Holton, "Lidar maker Princeton Lightwave acquired by Ford's Argo AI unit," Laser Focus World online (Oct. 27, 2017); https://goo.gl/s7MzZh.

25. C. Holton, "Lidar maker Strobe acquired by General Motors," Laser Focus World online (Oct. 9, 2017); https://goo.gl/GffWC1.

26. See https://goo.gl/d5bkMf.

27. C. Holton, "German quantum initiative QUTEGA starts with optical single ion clock," Laser Focus World online (Jun. 9, 2017); https://goo.gl/hgGXW9.

28. See https://goo.gl/aB3ebK.

29. See https://goo.gl/4A2DZS.

30. M. Nichols, "Diving into emerging AR/VR markets--opportunities for optics," Laser Focus World online (Sept. 26, 2017); https://goo.gl/vFGTph.

31. See https://goo.gl/27HfLX.

32. See https://goo.gl/LehEV2.

33. See https://goo.gl/RTp1F5.

34. See https://goo.gl/ckEUtf.

35. See https://goo.gl/dsJVGe.

36. See https://goo.gl/AXufxL.

37. See https://goo.gl/Zgm33A.

38. See https://goo.gl/pcvcGZ.

39. See https://goo.gl/iZRSbV.

40. See https://goo.gl/o7EtnW.

41. See https://goo.gl/7QiS5o.

42. S. Suh, S.-M. Yum, and C. Thevenot, "Liquid-crystal wavelength selective switches challenge MEMS designs," Laser Focus World, 50, 4, 59 (Apr. 2014); https://goo.gl/wTn1ZY.

43. C. Holton, "Is a fiber optics mega-cycle in the works?" Laser Focus World online (Jul. 27, 2016); https://goo.gl/TE31NW.

44. See https://goo.gl/N66yN1.

45. See https://goo.gl/R1HMSU.

46. See https://goo.gl/KAQw3W.

47. See https://goo.gl/ww7MpS.

48. See https://goo.gl/ZJUdLJ.

49. See https://goo.gl/3mhKzb.

50. See https://goo.gl/o141AC.

51. See https://goo.gl/Gc92Tn.

52. See https://goo.gl/6GzQyg.

53. See https://goo.gl/QZh7kV.

54. See https://goo.gl/7GpXFZ.

55. See https://goo.gl/fKWkNA.

56. See https://goo.gl/6qUfs2.

57. J. Wallace, "Femtosecond laser pulses produce ultrafast terahertz radiation from water," Laser Focus World, 53, 10, 24-26 (Oct. 2017); https://goo.gl/6nyPFW.

58. See https://goo.gl/uFfsVN.

59. See https://goo.gl/XUUR1n.

60. See https://goo.gl/47vvb9.

61. See https://goo.gl/d1Pm47.

62. See https://goo.gl/xa6XQ8.

63. J. Keller, "Tactical airborne laser weapons: where are we now, and how far do we have to go to get there?" Military & Aerospace Electronics online (Apr. 18, 2017); https://goo.gl/H5NM2v.

64. See https://goo.gl/GH4UiT.

65. See https://goo.gl/yPWUxQ.

66. See https://goo.gl/cYiwZ1.

67. See https://goo.gl/1Gsr9k.

68. See https://goo.gl/amAku9.

69. See https://goo.gl/cPo6H7.

70. See https://goo.gl/gJopUf.

71. See https://goo.gl/eV6mdX.

72. See https://goo.gl/ipH96X.

73. See https://goo.gl/jtaw3L.

74. See https://goo.gl/2Zp1Yc.

75. See https://goo.gl/HriWub.

76. See https://goo.gl/dkGfcV.

77. See https://goo.gl/2L5zSS.

78. See https://goo.gl/eGDKfo.

79. See https://goo.gl/9R2Ztw.

80. See https://goo.gl/J6QroU.

81. P. Krok, M. Mei, and N. Robinson, "All-optical, high-precision functional optogenetics," Laser Focus World, 53, 11, 39-41 (Nov. 2017); https://goo.gl/1CY5xU.

82. J. Wallace, "Fiber-based sensor has 1 cm resolution to quickly detect structural problems in bridges and dams," Laser Focus World online (May 11, 2017); https://goo.gl/jsbWJJ.

83. See https://goo.gl/YFVZtR.

84. See https://goo.gl/ZodTjE.

85. See https://goo.gl/ieuDwn.

86. J. Swalwell, "Large-scale flow cytometry enables climate-change insight," Laser Focus World, 53, 6, 45-49 (Jun. 2017); https://goo.gl/MLcKXX.

87. See https://goo.gl/D32Zsj.

88. B. Gefvert, "Spectroscopy system outperforms MRI for invasive cancer detection," Laser Focus World, 59, 9, 46-49 (Sept. 2017); https://goo.gl/bPBgMm.

89. J. Klein, "Ultrafast lasers take neuroscience deeper yet," Laser Focus World, 53, 4, 31-34 (Apr. 2017); https://goo.gl/p7vvuh.

90. See https://goo.gl/61SP9n.

91. M. Nagel, S. Sawallich, and B. Globisch, "Terahertz imaging tackles solar cell and semiconductor process inspection," Laser Focus World, 53, 10, 27-30 (Oct. 2017); https://goo.gl/Md2ySA.

92. J. Wallace, "UV light helps interface formation between layers of dissimilar semiconductors during fabrication," Laser Focus World online (Aug. 29, 2017); https://goo.gl/Pszz4w.

93. See https://goo.gl/VkKQCi.

94. See https://goo.gl/13fEv7.

95. See https://goo.gl/vLPGJ1.

96. See https://goo.gl/aYmSS2.

97. See https://goo.gl/uAhQL5.

98. See https://goo.gl/vBiJE9.

99. See https://goo.gl/XaoWtr.

100. See https://goo.gl/PCHBWV.

101. See https://goo.gl/PdySPq.

102. See https://goo.gl/pDjXtj.

103. See https://goo.gl/nzPGnV.

104. See https://goo.gl/kgUerp.

105. See https://goo.gl/3eZyoj.

106. See https://goo.gl/PwwmmY.

107. See https://goo.gl/yDmpkL.

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