99 results on '"Calosso, Claudio"'
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52. Simple Method for ADC Characterization under the Frame of Digital PM and AM Noise Measurement
53. Three-cornered hat versus allan covariance
54. Avoiding aliasing in fiber link data analysis
55. Avoiding Aliasing in Allan Variance: An Application to Fiber Link Data Analysis
56. 6/12-channel synchronous digital phasemeter for ultrastable signal characterization and use
57. Simple method for ADC characterization under the frame of digital PM and AM noise measurement
58. A compact coherent population trapping clock with a short-term fractional frequency stability of 4.2 x 10-13 τ-1/2.
59. Phase noise and jitter in digital electronics
60. Industrialisation approach of the pop atomic clock for application to GNSS
61. Pulsed optical pumping in a Rb vapor cell using a compact magnetron-type microwave cavity
62. Accuracy evaluation of ITCsF2: a nitrogen cooled caesium fountain
63. Phase noise and jitter in digital electronic components
64. 650-km Fiber Link in Italy for Optical Frequency Dissemination and Remote Clocks Comparison
65. The Cs fountain frequency standard at the Politecnico di Torino: preliminary results
66. Ramsey-fringe shape in an alkali-metal vapor cell with buffer gas
67. Tracking DDS in time and frequency metrology
68. The sampling theorem in Pi and lambda digital frequency dividers
69. Phase noise and amplitude noise in DDS
70. Active Disturbance Rejection Control: Application to the temperature stabilization of ultra-stable cavities
71. Laser-pumped high-performance compact gas-cell Rb standard with < 3×10−13 τ−1/2 stability
72. Planar-waveguide external cavity laser stabilization for an optical link with 10-19 frequency stability
73. Microwave cavities for vapor cell frequency standards
74. Investigations on improved Rb cell standards
75. Pulsed optically pumped Rb clock with optical detection: First results
76. Multistep preparation into a single Zeeman sublevel in aRb87vapor cell: Theory and experiment
77. LATTICE YB OPTICAL CLOCK AND CRYOGENIC Cs FOUNTAIN AT INRIM
78. THE PULSED OPTICALLY PUMPED CLOCK: MICROWAVE AND OPTICAL DETECTION
79. The cryogenic fountain ITCsF2
80. Pulsed optically pumpedRb87vapor cell frequency standard: A multilevel approach
81. Electronics for the Pulsed Rubidium Clock: Design and Characterization
82. Physics characterization and frequency stability of the pulsed rubidium maser
83. Stark-shift measurement of theS1∕22,F=3→F=4hyperfine transition ofCs133
84. Coherent-population-trapping maser: Noise spectrum and frequency stability
85. THE Cs FOUNTAIN FREQUENCY STANDARD AT THE POLITECNICO DI TORINO: PRELIMINARY RESULTS
86. Instrument-independent analysis of music by means of the continuous wavelet transform
87. Active disturbance rejection control of temperature for ultrastable optical cavities.
88. Enhanced temperature sensitivity in vapor-cell frequency standards.
89. Instrument-independent analysis of music by means of the continuous wavelet transform.
90. Cryogenic Fountain Development at NIST and INRIM: Preliminary Characterization.
91. Low-Noise Electronic Design for the 87Rb Coherent Population Trapping Maser.
92. Figure 4
93. 650-km fiber link for optical frequency dissemination and remote clocks comparison in Italy.
94. A compact coherent population trapping clock with a short-term fractional frequency stability of 4.2 x 10-13 τ-1/2
95. Pulsed optically pumped rubidium clock with high frequency-stability performance.
96. Physics characterization and frequency stability of the pulsed rubidium maser
97. Stark-shift measurement of the {sup 2}S{sub 1/2}, F=3{yields}F=4 hyperfine transition of {sup 133}Cs
98. Coherent-population-trapping maser: Noise spectrum and frequency stability
99. Low-noise electronic design for the 87Rb coherent population trapping maser.
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