J. P. Letellier scite author profile

J. P. Letellier

5Publications

85Citation Statements Received

5Citation Statements Given

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120

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Affiliations

Lovelace Medical Center, United States Naval Research Laboratory, University of New Mexico

Publications

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Changes in muscle proton transverse relaxation times and acidosis during exercise and recovery

Cheng

Robergs

Letellier

et al. 1995

Journal of Applied Physiology

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We studied changes in muscle proton (1H) transverse relaxation times (T2) by magnetic resonance imaging during exercise and compared these changes with alterations in muscle metabolism measured by phosphorus-31 magnetic resonance spectroscopy (31P-MRS). Eleven subjects completed two trials of intermittent incremental forearm wrist flexion exercise requiring 30 contractions/min for 5 min, 7 min of recovery between stages, and 5-N load increments/stage. Between stages of the first trial, T2 images of muscle 1H were obtained. Muscle T2 increased from 27.3 +/- 1.1 (SD) ms at rest to 35.8 +/- 3.6 ms after volitional fatigue (P < 0.05), whereas less active wrist extensor muscle T2 remained unchanged (26.8 +/- 0.9 to 28.8 +/- 1.6 ms; P > 0.05). After localizing the predominant muscle recruited from the T2 images, subjects completed an identical trial at least 1 wk later but involving surface coil 31P-MRS of the T2-enhanced muscle to measure the H+ concentration ([H+]). Intramuscular [H+] of T2-enhancing muscle increased from 1.1 +/- 0.1 x 10(-7) M at rest to 4.1 +/- 2.0 x 10(-7) M after volitional fatigue. Both muscle T2 and intramuscular [H+] increased in a bimodal manner, with T2 increasing before muscle [H+] (P < 0.05). The correlation coefficient between the percent change in T2 and muscle [H+] during exercise was +0.74 (range 0.48-0.98; P < 0.05) and +0.47 during recovery. After 12 min of recovery, muscle [H+] decreased to 1.4 +/- 0.3 x 10(-7) M (P < 0.05), and T2 remained close to postexercise values (32.2 +/- 3.1 ms, P > 0.05). The data indicate that 1) the T2 increases during increases in exercise intensity are nonlinear, 2) the T2 increases during exercise are significantly correlated with increases in [H+], and 3) the slow recovery of T2 compared with [H+] indicates that [H+] has a minor contribution to the recovery in T2.

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Dependence of laser-induced breakdown field strength on pulse duration

Fradin

Bloembergen

Letellier

1973

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Field strengths at which optical damage is initiated in NaCl have been measured with a mode-locked Nd: YAG laser with pulse durations of 15 and 300 psec. Comparison with previously reported data with a Q-switched laser shows that the field strength required for intrinsic optical damage increases by almost one order of magnitude from 106 V/cm at 10−8 sec to over 107 V/cm at 1.5 × 10−11 sec. This is in qualitative agreement with published estimates based on the electron avalanche breakdown mechanism.

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Generation of high-energy subnanosecond pulses by solid-state lasers

Emmett

McMahon²,

Letellier³

et al. 1972

IEEE J. Quantum Electron.

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Parallel Plate Transmission Line Pockels Cell

Letellier¹

1972

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Abstract: Dependence of Laser Induced Breakdown Field Strength on Pulse Duration

Fradin

Bloembergen

Letellier

1973

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J. P. Letellier

Changes in muscle proton transverse relaxation times and acidosis during exercise and recovery

Dependence of laser-induced breakdown field strength on pulse duration

Generation of high-energy subnanosecond pulses by solid-state lasers

Parallel Plate Transmission Line Pockels Cell

Abstract: Dependence of Laser Induced Breakdown Field Strength on Pulse Duration

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