Nab: Measurement Principles, Apparatus and Uncertainties (2008)
Pocanic, D., Alarcon, R., Alonzi, L. P., Baessler, S., Balascuta, S., Bowman, J. D., ...
The Nab collaboration will perform a precise measurement of 'a', the electron-neutrino correlation parameter, and 'b', the Fierz interference term in neutron beta decay, in the Fundamental Neutron...
Quantum motion of a neutron in a waveguide in the gravitational field (2007)
Voronin, Alexei Yu., Abele, H., Baessler, S., Nesvizhevsky, V.V., Petukhov, A.K., Protasov, K.V., ...
We study theoretically the quantum motion of a neutron in a horizontal wave-guide in the gravitational field of the Earth. The wave-guide in question is equipped with a mirror below and a rough...
A clean, bright, and versatile source of neutron decay products (2007)
Dubbers, D., Abele, H., Baessler, S., Maerkisch, B., Schumann, M., Soldner, T., ...
We present a case study on a new type of cold neutron beam station for the investigation of angular correlations in the beta-decay of free neutrons. With this beam station, called PERC, the 'active...
Westphal, A., Abele, H., Baessler, S., Nesvizhevsky, V.V., Petukhov, A.K., Protasov, K.V., ...
Quantum states in the Earth's gravitational field were observed, when ultra-cold neutrons fall under gravity. The experimental results can be described by the quantum mechanical scattering model as...
Baessler, S., Nesvizhevsky, V.V., Protasov, K.V., Voronin, A.Yu.
We present a new constraint for the axion monopole-dipole coupling in the range of 1 micrometer to a few millimeters, previously unavailable for experimental study. The constraint was obtained using...
Baessler, S., Nesvizhevsky, V. V., Protasov, K. V., Voronin, A. Yu.
We present a new constraint for the axion monopole-dipole coupling in the range of 1 micrometer to a few millimeters, previously unavailable for experimental study. The constraint was obtained using...
Westphal, Alexander, Abele, H., Baessler, S., Nesvizhevsky, V. V., Petukhov, A. K., Protasov, K. V., ...
Quantum states in the Earth's gravitational field were observed, when ultra-cold neutrons fall under gravity. The experimental results can be described by the quantum mechanical scattering model as...
Study of the neutron quantum states in the gravity field (2006)
Nesvizhevsky, V.V., Petukhov, A.K., .Boerner, H.G, Baranova, T.A., Gagarski, A.M., Petrov, G.A., ...
We have studied neutron quantum states in the potential well formed by the earth's gravitational field and a horizontal mirror. The estimated characteristic sizes of the neutron wave functions in the...
Measurement of quantum states of neutrons in the Earth's gravitational field (2006)
Nesvizhevsky, V.V., Boerner, H.G., Gagarski, A.M., Petoukhov, A.K., Petrov, G.A., Abele, H., ...
The lowest stationary quantum state of neutrons in the Earth's gravitational field is identified in the measurement of neutron transmission between a horizontal mirror on the bottom and an absorber...
Measurement of quantum states of neutrons in the Earth's gravitational field (2006)
Nesvizhevsky, V.V., Boerner, H.G., Gagarski, A.M., Petoukhov, A.K., Petrov, G.A., Abele, H., ...
The lowest stationary quantum state of neutrons in the Earth's gravitational field is identified in the measurement of neutron transmission between a horizontal mirror on the bottom and an absorber...
Measurement of quantum states of neutrons in the Earth's gravitational field (2006)
Nesvizhevsky, V.V., Boerner, H.G., Gagarski, A.M., Petoukhov, A.K., Petrov, G.A., Abele, H., ...
The lowest stationary quantum state of neutrons in the Earth's gravitational field is identified in the measurement of neutron transmission between a horizontal mirror on the bottom and an absorber...
Westphal, A., Abele, H., Baessler, S., Nesvizhevsky, V.V., Petukhov, A.K., Protasov, K.V., ...
Quantum states in the Earth's gravitational field were observed, when ultra-cold neutrons fall under gravity. The experimental results can be described by the quantum mechanical scattering model as...
Westphal, A., Abele, H., Baessler, S., Nesvizhevsky, V.V., Petukhov, A.K., Protasov, K.V., ...
Quantum states in the Earth's gravitational field were observed, when ultra-cold neutrons fall under gravity. The experimental results can be described by the quantum mechanical scattering model as...
Quantum motion of a neutron in a wave-guide in the gravitational field (2005)
Voronin, A. Yu., Abele, H., Baessler, S., Nesvizhevsky, V. V., Petukhov, A. K., Protasov, K. V., ...
We study theoretically the quantum motion of a neutron in a horizontal wave-guide in the gravitational field of the Earth. The wave-guide in question is equipped with a mirror below and a rough...
Study of the neutron quantum states in the gravity field (2005)
Nesvizhevsky, V. V., Petukhov, A. K., Boerner, H. G., Baranova, T. A., Gagarski, A. M., Petrov, G. A., ...
We have studied neutron quantum states in the potential well formed by the earth's gravitational field and a horizontal mirror. The estimated characteristic sizes of the neutron wave functions in the...
Investigation of the neutron quantum states in the Earth's gravitational field (2005)
Nesvizhevsky, V.V., Petukhov, A.K., Borner, H.G., Baranova, T.A., Gagarski, A.M., Petrov, G.A., ...
We studied the neutron quantum states in the potential well formed by the Earth's gravitational field and a horizontal mirror. The estimated characteristic sizes of the neutron wave functions in two...
Study of the neutron quantum states in the gravity field (2005)
Nesvizhevsky, V.V., Petukhov, A.K., .Boerner, H.G, Baranova, T.A., Gagarski, A.M., Petrov, G.A., ...
We have studied neutron quantum states in the potential well formed by the earth's gravitational field and a horizontal mirror. The estimated characteristic sizes of the neutron wave functions in the...
Investigation of the neutron quantum states in the Earth's gravitational field (2005)
Nesvizhevsky, V.V., Petukhov, A.K., Borner, H.G., Baranova, T.A., Gagarski, A.M., Petrov, G.A., ...
We studied the neutron quantum states in the potential well formed by the Earth's gravitational field and a horizontal mirror. The estimated characteristic sizes of the neutron wave functions in two...
Study of the neutron quantum states in the gravity field (2005)
Nesvizhevsky, V.V., Petukhov, A.K., .Boerner, H.G, Baranova, T.A., Gagarski, A.M., Petrov, G.A., ...
We have studied neutron quantum states in the potential well formed by the earth's gravitational field and a horizontal mirror. The estimated characteristic sizes of the neutron wave functions in the...
Measurement of quantum states of neutrons in the Earth's gravitational field (2003)
Nesvizhevsky, V. V., Boerner, H. G., Gagarsky, A. M., Petoukhov, A. K., Petrov, G. A., Abele, H., ...
The lowest stationary quantum state of neutrons in the Earth's gravitational field is identified in the measurement of neutron transmission between a horizontal mirror on the bottom and an absorber...
Measurement of quantum states of neutrons in the Earth's gravitational field (2003)
Nesvizhevsky, V.V., Boerner, H.G., Gagarski, A.M., Petoukhov, A.K., Petrov, G.A., Abele, H., ...
The lowest stationary quantum state of neutrons in the Earth's gravitational field is identified in the measurement of neutron transmission between a horizontal mirror on the bottom and an absorber...
Nesvizhevsky, V.V., Petoukhov, A.K., Boerner, H.G., Protasov, K.V., Voronin, A.Yu., Westphal, A., ...
Measurement of quantum states of neutrons in the Earth's gravitational field (2003)
Nesvizhevsky, V.V., Boerner, H.G., Gagarski, A.M., Petoukhov, A.K., Petrov, G.A., Abele, H., ...
The lowest stationary quantum state of neutrons in the Earth's gravitational field is identified in the measurement of neutron transmission between a horizontal mirror on the bottom and an absorber...
Nesvizhevsky, V.V., Petoukhov, A.K., Boerner, H.G., Protasov, K.V., Voronin, A.Yu., Westphal, A., ...
Is the Unitarity of the quark-mixing-CKM-matrix violated in neutron $\beta$-decay? (2002)
Abele, H., Hoffmann, M. Astruc, Baessler, S., Dubbers, D., Glück, F., Müller, U., ...
We report on a new measurement of neutron $\beta$-decay asymmetry. From the result \linebreak $A_0$ = -0.1189(7), we derive the ratio of the axial vector to the vector coupling constant $\lambda$ =...