The article treats the recent development of quasi-steady ELMy high beta(p)
H mode discharges with enhanced confinement and high beta stability, where
long sustainment time, an increase in absolute fusion performance and exte
nsion of the discharge regime towards low q(95) (similar to 3) are emphasiz
ed. After modification to the new W shaped pumped divertor, a long heating
time (9 s) with a high total heating energy input of 203 MJ became possible
without a harmful increase in impurity and particle recycling. In addition
, optimization of the pressure profile characterized by the double transpor
t barriers, optimum electron density and/or high triangularity delta made i
t possible to extend the performance in long pulses. The DT equivalent fusi
on gain Q(DT)(eq) approximate to 0.1 (delta = 0.16) was sustained for simil
ar to 9 s (similar to 50 tau(E), similar to 10 tau(p)*) and Q(DT)(eq) appro
ximate to 0.16 (delta = 0.3) for 4.5 s at I-p = 1.5 MA. In the latter case
with higher delta, an H factor (=tau(E)/tau(E)(ITER89PL)) of similar to 2.2
, beta(N) approximate to 1.9 and beta(p) approximate to 1.6 were sustained
with 60-70% of the non-inductively driven current. In the low q(95) (simila
r to 3) region, the beta limit was improved by the high delta (similar to 0
.46) shape, where beta(N) approximate to 2.5-2.7 was sustained for similar
to 3.5 s with the collisionality close to that of ITER-FDR plasmas. The lim
it of the edge alpha parameter in the ELMy phase increases with delta, whic
h is the main reason behind the improved beta limit in a long pulse at high
delta. The sustainable value of beta(N)H also increases with delta. Sustai
nable beta(N) is limited by the onset of low n resistive modes. Direct meas
urement of island width shows agreement with the neoclassical tearing mode
theory.