The bouncing neutron is one of the rare system where gravity can be studied in a quantum framework. To this end it is crucial to be able to select some specific gravitational quantum state (GQS). The GRANIT apparatus is the first physics experiment connected to a superthermal helium UCN source. We report on the methods developed for this instrument showing how specific GQS can be favored using a step between mirrors and an absorbing slit. We explore the increase of GQS separation efficiency by increasing the absorber roughness amplitude, and find it is feasible but requires a high adjustment precision. We also quantify the transmission of the absorbing slit leading to a measurement of the spatial extension of the neutron vertical wave funct...
Les neutrons peuvent rebondir sur un miroir horizontal parfait, et se comporter comme des objets qua...
In the paper by Nesvizhevsky et al. [Phys. Rev. D 67, 102002 (2003)], it is argued that the lowest q...
We have studied neutron quantum states in the potential well formed by the earth’s gravitational fie...
The bouncing neutron is one of the rare system where gravity can be studied in a quantum framework. ...
We will discuss the scientific program to be studied in a new gravitational spectrometer GRANIT in a...
Quantum states of neutrons in the gravity field allows to measure a quantum phenomenon associated to...
Previous studies of gravitationally bound states of ultracold neutrons showed the quantization of en...
International audienceWe present a method to measure the resonance transitions between the gravitati...
Neutrons can bounce upon a perfect horizontal mirror and become quantum objects at dozens of microme...
The GRANIT facility is a follow-up project, which is motivated by the recent discovery of gravitatio...
The time evolution of a quantum wave packet in the linear gravity potential is known as Quantum Boun...
11 pages, 20 figures, Proceedings of the GRANIT-2014 WORKSHOP "Quantum gravitational spectroscopy wi...
In the paper by V.V. Nesvizhevsky et al., Phys. Rev. D 67, 102002 (2003), it is argued that the lowe...
We studied the neutron quantum states in the potential well formed by the Earth's gravitational fiel...
We studied the neutron quantum states in the potential well formed by the Earth's gravitational fiel...
Les neutrons peuvent rebondir sur un miroir horizontal parfait, et se comporter comme des objets qua...
In the paper by Nesvizhevsky et al. [Phys. Rev. D 67, 102002 (2003)], it is argued that the lowest q...
We have studied neutron quantum states in the potential well formed by the earth’s gravitational fie...
The bouncing neutron is one of the rare system where gravity can be studied in a quantum framework. ...
We will discuss the scientific program to be studied in a new gravitational spectrometer GRANIT in a...
Quantum states of neutrons in the gravity field allows to measure a quantum phenomenon associated to...
Previous studies of gravitationally bound states of ultracold neutrons showed the quantization of en...
International audienceWe present a method to measure the resonance transitions between the gravitati...
Neutrons can bounce upon a perfect horizontal mirror and become quantum objects at dozens of microme...
The GRANIT facility is a follow-up project, which is motivated by the recent discovery of gravitatio...
The time evolution of a quantum wave packet in the linear gravity potential is known as Quantum Boun...
11 pages, 20 figures, Proceedings of the GRANIT-2014 WORKSHOP "Quantum gravitational spectroscopy wi...
In the paper by V.V. Nesvizhevsky et al., Phys. Rev. D 67, 102002 (2003), it is argued that the lowe...
We studied the neutron quantum states in the potential well formed by the Earth's gravitational fiel...
We studied the neutron quantum states in the potential well formed by the Earth's gravitational fiel...
Les neutrons peuvent rebondir sur un miroir horizontal parfait, et se comporter comme des objets qua...
In the paper by Nesvizhevsky et al. [Phys. Rev. D 67, 102002 (2003)], it is argued that the lowest q...
We have studied neutron quantum states in the potential well formed by the earth’s gravitational fie...