Handbook of optical materials JW Fleming, MJ Weber, GW Day, A Feldman, BHT Chai, MG Kuzyk, ... CRC press, 2018 | 2497 | 2018 |
Accurate frequencies of molecular transitions used in laser stabilization: the 3.39‐μm transition in CH4 and the 9.33‐and 10.18‐μm transitions in CO2 KM Evenson, JS Wells, FR Petersen, BL Danielson, GW Day Applied Physics Letters 22 (4), 192-195, 1973 | 353 | 1973 |
Speed of light from direct frequency and wavelength measurements of the methane-stabilized laser KM Evenson, JS Wells, FR Petersen, BL Danielson, GW Day, RL Barger, ... Physical Review Letters 29 (19), 1346, 1972 | 337 | 1972 |
Temperature dependence of the Verdet constant in several diamagnetic glasses PA Williams, AH Rose, GW Day, TE Milner, MN Deeter Applied Optics 30 (10), 1176-1178, 1991 | 191 | 1991 |
Annealing of linear birefringence in single-mode fiber coils: application to optical fiber current sensors D Tang, AH Rose, GW Day, SM Etzel Journal of Lightwave Technology 9 (8), 1031-1037, 1991 | 183 | 1991 |
Stability of birefringent linear retarders (waveplates) PD Hale, GW Day Applied optics 27 (24), 5146-5153, 1988 | 158 | 1988 |
Fast, sensitive magnetic-field sensors based on the Faraday effect in YIG MN Deeter, AH Rose, GW Day Journal of lightwave technology 8 (12), 1838-1842, 1990 | 133 | 1990 |
Optical, thermo-optic, electro-optic, and photoelastic properties of bismuth germanate (Bi4Ge3O12) PA Williams, AH Rose, KS Lee, DC Conrad, GW Day, PD Hale Applied Optics 35 (19), 3562-3569, 1996 | 129 | 1996 |
Faraday effect sensors: the state of the art GW Day, AH Rose Fiber Optic and Laser Sensors VI 985, 138-150, 1989 | 118 | 1989 |
Extension of Absolute Frequency Measurements to the cw He–Ne Laser at 88 THz (3.39 μ) KM Evenson, GW Day, JS Wells, LO Mullen Applied Physics Letters 20 (3), 133-134, 1972 | 116 | 1972 |
Faraday rotation in coiled, monomode optical fibers: isolators, filters, and magnetic sensors GW Day, DN Payne, AJ Barlow, JJ Ramskov-Hansen Optics letters 7 (5), 238-240, 1982 | 110 | 1982 |
Effects of poling conditions on responsivity and uniformity of polarization of PVF2 pyroelectric detectors GW Day, CA Hamilton, RL Peterson, RJ Phelan Jr, LO Mullen Applied Physics Letters 24 (10), 456-458, 1974 | 96 | 1974 |
Analysis of response of pyroelectric optical detectors RL Peterson, GW Day, PM Gruzensky, RJ Phelan Jr Journal of Applied Physics 45 (8), 3296-3303, 1974 | 91 | 1974 |
Faraday effect current sensor with improved sensitivity–bandwidth product KB Rochford, AH Rose, MN Deeter, GW Day Optics letters 19 (22), 1903-1905, 1994 | 79 | 1994 |
Twisting and annealing optical fiber for current sensors AH Rose, ZB Ren, GW Day Journal of Lightwave Technology 14 (11), 2492-2498, 1996 | 75 | 1996 |
The polarization of PVF and PVF2 pyroelectrics RJ Phelan Jr, RL Peterson, CA Hamilton, GW Day Ferroelectrics 7 (1), 375-377, 1974 | 60 | 1974 |
Submicroampere-per-root-hertz current sensor based on the Faraday effect in Ga: YIG AH Rose, MN Deeter, GW Day Optics letters 18 (17), 1471-1473, 1993 | 57* | 1993 |
Magneto-optic sensors based on iron garnets KB Rochford, AH Rose, GW Day IEEE Transactions on magnetics 32 (5), 4113-4117, 1996 | 56 | 1996 |
Novel bulk iron garnets for magneto-optic magnetic field sensing MN Deeter, SM Bon, GW Day, G Diercks, S Samuelson IEEE Transactions on Magnetics 30 (6), 4464-4466, 1994 | 45 | 1994 |
High frequency magnetic field sensors based on the Faraday effect in garnet thick films R Wolfe, EM Gyorgy, RA Lieberman, VJ Fratello, SJ Licht, MN Deeter, ... Applied physics letters 60 (17), 2048-2050, 1992 | 43 | 1992 |