|
E 1.99:lbnl--53419
|
Phenomenological aspects of heterotic orbifold models at one loop |
1 |
|
E 1.99:lbnl--53421
|
Proof-of-concept experiments for negative ion driver beams forheavy ion fusion |
1 |
|
E 1.99:lbnl--53431
|
Simulation of ionization effects for high-density positron drivers in future plasma wakefield experiments |
1 |
|
E 1.99:lbnl--53432
|
All-optical beamlet train generation |
1 |
|
E 1.99:lbnl--53439
|
Modeling Unsaturated Flow and Transport Processes in Fractured Tuffs of Yucca Mountain |
1 |
|
E 1.99:lbnl--53443
|
Natural attenuation of fuel hydrocarbon contaminants Hydraulic conductivity dependency of biodegradation rates in a field case study. |
1 |
|
E 1.99:lbnl--53444
|
Case study field evaluation of a systems approach to retrofitting a residential HVAC system |
1 |
|
E 1.99:lbnl--53446
|
Global climate change mitigation and sustainable forest management--The challenge of monitoring and verification |
1 |
|
E 1.99:lbnl--53450
|
Fabrication of Yttria stabilized zirconia thin films on poroussubstrates for fuel cell applications |
1 |
|
E 1.99:lbnl--53451
|
Efficient crosswell EM tomography using localized nonlinear approximation |
1 |
|
E 1.99:lbnl--53452
|
Graphical Model Theory for Wireless Sensor Networks |
1 |
|
E 1.99:lbnl--53453
|
The transforming activity of Ski is dependent on its ability to repress the activity of Smad proteins |
1 |
|
E 1.99:lbnl--53455
|
Mutual passivation effects in Si-doped diluted In{sub y}Ga{sub 1-y}As{sub 1-x}Nₓ alloys |
1 |
|
E 1.99:lbnl--53458
|
A fugacity-based indoor residential pesticide fate model |
1 |
|
E 1.99:lbnl--53463
|
Superconducting focusing quadrupoles for heavy ion fusion experiments |
1 |
|
E 1.99:lbnl--53464
|
High p<sub>$\perp$</sub> inclusive charged hadron distributions in Au+Au collisions at √s<sub>NN</sub> = 130 GeV at RHIC |
1 |
|
E 1.99:lbnl--53465
|
Turbulent boundary layers at very large Reynolds numbers |
1 |
|
E 1.99:lbnl--53467
|
Technicolorful Supersymmetry |
1 |
|
E 1.99:lbnl--53469
|
Stability properties of the transverse envelope equations describing intense ion beam transport |
1 |
|
E 1.99:lbnl--53470
|
Influence of conducting plate boundary conditions on the transverse envelope equations describing intense ion beam transport |
1 |
