Superconducting UCN polarizer for a new EDM spectrometer.A test experiment has shown that the number of ultracold neutrons (UCN UCN Universidad Católica del Norte (Chile) UCN University College of the North (The Pas, Manitoba, Candad) UCN Ultra Cold Neutron UCN Unión del Centro Nacional ) of one polarization state, transmitted through a 100 [micro]m Al foil when placed in a 5 T magnetic field, is greater by 3.8 times. The increased transmission is due to the higher velocity of the UCN passing through the foil. Key words: polarization; ultracold neutrons. 1. Introduction There are two possible ways to obtain polarized A one-way direction of a signal or the molecules within a material pointing in one direction. UCN for the electric dipole moment Noun 1. electric dipole moment - the dipole moment in an electric dipole dipole moment - the moment of a dipole (EDM (Engineering Data Management) An information system that maintains the details of all engineering data while the product is in the design and concept phase. This includes geometry and changes to geometry. See PLM. EDM - Electronic Data Management ) experiment: either one uses magnetized ferromagnetic Refers to a material, such as iron and nickel, that can be easily magnetized. See MRAM. layers on thin foils [1] or one uses strong magnetic fields magnetic fields, n.pl the spaces in which magnetic forces are detectable; created by magnetostrictive ultrasonic scalers to cause the tips of instruments such as ultrasonic scalers to vibrate. of the order of 5 T. We propose to use a superconducting (SC) solenoid solenoid (sō`lənoid'), device made of a long wire that has been wound many times into a tightly packed coil; it has the shape of a long cylinder. polarizer polarizer an appliance for polarizing light. on the fill lines of the EDM spectrometer. The advantages of such a choice are: 1) the possibility to obtain fully polarized UCN as compared to about 85% polarization using magnetized foils; 2) the possibility to place the vacuum separation foil in the high magnetic field region. Separation foils are needed between the UCN source volume containing the solid deuterium deuterium (d  tēr`ēəm), isotope of hydrogen with mass no. 2. The deuterium nucleus, called a deuteron, contains one proton and one neutron. and the EDM volume with the high voltage The term high voltage characterizes electrical circuits, in which the voltage used is the cause of particular safety concerns and insulation requirements. High voltage is used in electrical power distribution, in cathode ray tubes, to generate X-rays and particle beams, to . A test experiment has recently shown that the number of UCN of one polarization state transmitted through a 100 [micro]m Al foil when placed in a 5 T magnetic field is greater by 3.8 times. The increased transmission is due to the higher velocity of the UCN passing through the foil. The superconducting solenoids will be equipped with ARMCO return yokes in order to suppress the stray fields that might influence the EDM measurements. Due to the fact that the magnetic field of the SC magnets, once switched on, will be very stable over typical measurement times, its influence on the EDM experiment is only static and can be compensated for. In our test experiment on foil transmission at the Institut Max von Laue--Paul Langevin (ILL), the possibility to carry out the present RAL-Sussex-ILL EDM experiment together with an even unshielded Adj. 1. unshielded - (used especially of machinery) not protected by a shield unprotected - lacking protection or defense SC solenoid nearby (about 4 m distance) has been demonstrated. As it is shown in the calculation, a cylindrical magnetic shield made of ARMCO with a diameter of 700 mm and a thickness of 100 mm can suppress the magnetic field in the EDM spectrometer down to 50 [micro]T. 2. The Scheme of the Experiment The scheme of the experiment, which was recently performed at ILL, Grenoble, is shown in Fig. 1. UCN from the ILL turbine filled a Be coated gravitational grav·i·ta·tion n. 1. Physics a. The natural phenomenon of attraction between physical objects with mass or energy. b. The act or process of moving under the influence of this attraction. 2. spectrometer volume. After closing the shutter 1, a well defined UCN spectrum was formed in the spectrometer over 100 s by means of a moveable absorber. The spectrum was very similar to the one that will be obtained in the UCN storage vessel of the PSI UCN source, which is presently under construction. When the shutter 2 was opened, UCN were counted in the UCN detector. Various cases were studied: with and without an Al foil, with and without a magnetic field. All four possible cases were studied with the UCN absorber at various positions in order to obtain the energy dependence of the transmission. 3. Experimental Results Figure 2 shows the differential UCN spectrum, as seen by the UCN detector, with the magnetic field switched on to 5 T and the differential UCN spectrum with the magnetic field switched off divided by factor of two because it is an unpolarized beam with two spin components. For a 100 [micro]m thick Al foil the integral number of polarized UCN with the SC magnet switched on is 3.8 times greater than the integral number of UCN with one spin component with the magnet switched off. UCN of one polarization component get accelerated in the magnetic field gradient, and have a longitudinal velocity of more than 7.6 m/s for the case where the 5 T field is at the foil position. As a result, these neutrons more easily penetrate the Al potential barrier and pass through the foil with considerably smaller losses. Figure 3 shows the transmission probability as a function of UCN energy outside the solenoid. This probability is determined by the ratio of count rates with and without the foil. In the case where the magnet is switched on, the transmission is only weakly dependent on the spectrum. For the 100 [micro]m Al foil, the transmission is larger than 80%. For a 50 [micro]m Zr foil (which can be used for separating the vacuum in the same way as 100 [micro]m Al), the transmission is about 90%. [FIGURE 1 OMITTED] Thus the usage of a SC solenoid allows one to obtain polarized UCN and to increase the density of polarized UCN by factor of 3.8. In the cases when polarization of UCN is not needed in the experiment, the factor of the UCN density increase is about two times. It is important also for the experiments with unpolarized UCN. [FIGURE 2 OMITTED] [FIGURE 3 OMITTED] Acknowledgments The authors are grateful to the Russian Federation Russian Federation: see Russia. of Basic Research for support under contracts 02-02-17120 and 04-02-17440, to INTAS INTAS International Association for Cooperation with Scientists from the former Soviet Union IntAS International Animation Sodality for support under contract 2001-765, to the Russian Academy of Science for support under the Program of Fundamental Research. 4. Reference [1] A. I. Egorov et al., Yad. Fiz. 19, 300 (1974) (Sov. J. Nucl. Phys. 19, 147). A. Serebrov, M. Lasakov, and A. Fomin St. Petersburg Nuclear Physics Institute, Gatchina, Russia P. Geltenbort Institut Max von Laue-Paul Langevin, Grenoble, France and A. Murashkin, I. Krasnoshekova, Yu. Rudnev, and A. Vasiliev St. Petersburg Nuclear Physics Institute, Gatchina, Russia Accepted: August 11, 2004 Available online: http://www.nist.gov/jres |
|
||||||||||||||||
Printer friendly
Cite/link
Email
Feedback
Reader Opinion