1 00:00:00,640 --> 00:00:02,751 as I mentioned there was , you know , 2 00:00:02,751 --> 00:00:06,350 it builds a pound of foundation of 3 00:00:06,740 --> 00:00:10,170 of scientific discovery , builds upon 4 00:00:10,170 --> 00:00:12,900 the foundation of understanding how to 5 00:00:12,900 --> 00:00:15,940 apply these discoveries to D o . D . 6 00:00:15,940 --> 00:00:19,160 Problems like the atomic clocks that we 7 00:00:19,160 --> 00:00:22,120 rely upon today as we're looking ahead 8 00:00:22,420 --> 00:00:26,180 at at a future , uh , 9 00:00:26,190 --> 00:00:28,246 future spinoffs of this technology , 10 00:00:28,540 --> 00:00:30,707 you know , in the nearer term , we can 11 00:00:30,707 --> 00:00:33,250 anticipate new new versions of atomic 12 00:00:33,250 --> 00:00:36,150 clocks that are smaller , more robust , 13 00:00:36,480 --> 00:00:38,910 more easily fielded . We can look 14 00:00:38,910 --> 00:00:41,590 forward , Thio things like new versions 15 00:00:41,590 --> 00:00:43,900 of gyroscopes , gravitational sensors 16 00:00:43,910 --> 00:00:46,077 to make an impact on D o D . Mission . 17 00:00:46,140 --> 00:00:48,251 And then , in the longer term , there 18 00:00:48,251 --> 00:00:50,760 is a huge endeavor to try to understand 19 00:00:50,770 --> 00:00:53,090 quantum computing , how it gets 20 00:00:53,090 --> 00:00:54,990 developed , how the hardware is 21 00:00:54,990 --> 00:00:56,990 developed and how the software gets 22 00:00:56,990 --> 00:00:59,157 developed , how these applications get 23 00:00:59,157 --> 00:01:01,157 developed . There's a lot of lot of 24 00:01:01,157 --> 00:01:03,780 excitement around this , and there's a 25 00:01:03,790 --> 00:01:06,750 great deal of work . Uh huh . In the D . 26 00:01:06,750 --> 00:01:10,700 O . D . And with our partners in the U . 27 00:01:10,700 --> 00:01:13,990 S . Academia and industry as well as 28 00:01:13,990 --> 00:01:14,650 around the world