Portable I-2-stabilized Nd : YAG laser for international comparisons
Hong FL, Ishikawa J, Bi ZY, Zhang J, Seta K, Onae A, Yoda J, Matsumoto H
IEEE TRANSACTIONS ON INSTRUMENTATION AND MEASUREMENT

50 (2): 486-489 APR 2001

Times Cited: 14 [SCI 14,  by others  5,  by ourself 9 (&)]

14) Wallerand JP, Robertsson L, Ma LS, et al.

Absolute frequency measurement of molecular iodine lines at 514.7 nm, interrogated by a frequency-doubled Yb-doped fibre laser 
METROLOGIA 43 (3): 294-298 JUN 2006

13) Burdack P, Fox T, Bode M, et al.

1 W of stable single-frequency output at 1.03 mu m from a novel, monolithic, non-planar Yb : YAG ring laser operating at room temperature 
OPTICS EXPRESS 14 (10): 4363-4367 MAY 15 2006

12) Huang MS, Lu MH, Shy JT

Novel method to stabilize a laser wavelength unaffected by Fabry-Perot etalon angle drift 
OPTICAL ENGINEERING 43 (5): 1221-1226 MAY 2004

11) Hong FL, Ishikawa J, Zhang Y, et al.

Frequency reproducibility of an iodine-stabilized Nd : YAG laser at 532 nm 
OPTICS COMMUNICATIONS 235 (4-6): 377-385 MAY 15 2004           &(9)

10) Hong FL, Diddams S, Guo RX, et al.

Frequency measurements and hyperfine structure of the R(85)33-0 transition of molecular iodine with a femtosecond optical comb 
J OPT SOC AM B 21 (1): 88-95 JAN 2004                                         &(8)

9) Bitou Y, Sasaki K, Iwasaki S, et al.

Compact I-2-stabilized frequency-doubled Nd : YAG laser for long gauge block interferometer
JPN J APPL PHYS 1 42 (5A): 2867-2871 MAY 2003

8) Zhang J, Wei D, Xie CD, et al.

Characteristics of absorption and dispersion for rubidium D-2 lines with the modulation transfer spectrum
OPT EXPRESS 11 (11): 1338-1344 JUN 2 2003                                     &(7)

7) Hong FL, Ishikawa J, Sugiyama K, et al.

Comparison of independent optical frequency measurements using a portable iodine-stabilized Nd : YAG laser
IEEE T INSTRUM MEAS 52 (2): 240-244 APR 2003                              &(6)

6) Nyholm K, Merimaa M, Ahola T, et al.

Frequency stabilization of a diode-pumped Nd : Yag laser at 532 nm to iodine by using third-harmonic technique
IEEE T INSTRUM MEAS 52 (2): 284-287 APR 2003

5) Hong FL, Zhang Y, Ishikawa J, et al.

Hyperfine structure and absolute frequency determination of the R(121)35-0 and P(142)37-0 transitions of I-127(2) near 532 nm
OPT COMMUN 212 (1-3): 89-95 OCT 15 2002                                           &(5)

4) Hong FL, Zhang Y, Ishikawa J, et al.

Vibration dependence of the tensor spin-spin and scalar spin-spin hyperfine interactions by precision measurement of hyperfine structures of I-127(2) near 532 nm
J OPT SOC AM B 19 (5): 946-953 MAY 2002                                              &(4)

3) Robertson L, Picard S, Hong FL, et al.

International comparison of 127I(2)-stabilized frequency-doubled Nd : YAG lasers between the BIPM, the NRLM and the BNM-INM, October 2000
METROLOGIA 38 (6): 567-572 2001                                                           &(3)

2) Zhang Y, Ishikawa J, Hong FL

Accurate frequency atlas of molecular iodine near 532 nm measured by an optical frequency comb generator

           OPT COMMUN 200 (1-6): 209-215 DEC 15 2001                              &(2)

1) Hong FL, Ishikawa J, Onae A, et al.

Rotation dependence of the excited-state electric quadrupole hyperfine interaction by high-resolution laser spectroscopy of I-127(2)

           J OPT SOC AM B 18 (10): 1416-1422 OCT 2001                                &(1)

Last modified: 6 OCT 2006