Issue link: https://maltatoday.uberflip.com/i/744537
maltatoday, SUNDAY, 30 OCTOBER 2016 17 News APS INCOME FUND Annualised Returns* 8.40% O ering Income & Capital Growth Potential *Annualised Returns as at 29/07/2016 since inception, 22/04/2008 2122 6644 invest@apsfunds.com.mt apsfunds.com.mt Why wait for opportunity to knock? Talk to us about the APS Income Fund today. Investments should be based on the full details of the APS Funds SICAV p.l.c. Prospectus and the APS Income Fund Supplement which may be obtained from APS Bank Limited and any of its branches. Past performance over a particular period will not necessarily be indicative of the results that may be expected in future periods. The value of the participating shares and the income derived from them can go down as well as up and the investor may not receive on redemption of their shares the amount that they invested. APS Bank Limited is licensed to provide investment services by the Malta Financial Services Authority (MFSA). APS Funds SICAV p.l.c. and APS Income Fund are licensed by the MFSA. Issued by APS Funds SICAV p.l.c. APS Centre, Tower Street, Birkirkara BKR4012, Malta Tel. (+356) 2122 6644. mut (Deputy Dean, Faculty of ICT) and Dr Ing. Andrew Sam- mut (Dean, Faculty of Engineer- ing) worked on the measure- ment and characterisation of the ITER Toroidal Field (TF) coils. These coils are core main el- ements of the machine. In all there are 18 superconducting D- shaped coils, each measuring 13 metres by eight metres. These coils are cooled to an unthinkable freezing -268°C in operating cryogenic conditions. With an electrical current of 68,000 amperes, these super- conducting coils carry about 2,000 times the current found in a standard household wire! And the currents generated will reach a peak magnetic field of 11.8 T, which is required to confine the plasma and control its shape and direction of movement inside the reactor chamber. "Nuclear fusion reactions are very challenging to confine sus- tainably due to the extremely high temperatures involved. However, they release three times as much energy as current fission reactors, and their fuels are abundant. They also produce 100 times less radioactive waste that is not long lived," research- ers say. "The design of tokamaks is also such that it would be impossible to undergo large-scale runaway chain reactions. If this technol- ogy is harnessed, fusion reactors would be able to produce relia- ble electricity with virtually zero pollution. Hence fusion power has the potential to provide suf- ficient energy to satisfy mount- ing demand and to do so sus- tainably with a relatively small impact on the environment." Fusion reactors would produce reliable electricity with virtually zero pollution to build Sun's energy