h�b```�R �\r�A���bl,7 endobj 352 36 0000016241 00000 n � endstream 0000000016 00000 n xref 0000002229 00000 n ��f�f"�!䐗���f6b4N�n[�2Ƹ,D(���m��Ҷ��*@�m���*f}μ�z}a[��d� GIܽ�d���t�Ŷ�p��L�(5�W�OY�G��L<8�S?��(H��e��*ZtԢ��S�z$�&�uS� I�ʭ㓦�����[ۚ�m�~ 7 0 obj 0000004151 00000 n 0000004718 00000 n %PDF-1.4 %���� Description: Quantum mechanics, the subfield of physics that describes the behavior of very small (quantum) particles, provides the basis for a new paradigm of computing. <<4BEA70D554C86442928CDE16EBDE593F>]/Prev 1360193/XRefStm 1371>> %%EOF 0000010454 00000 n 0000028479 00000 n 0000009969 00000 n 0000005365 00000 n @�Q:����v_�l�=L"< %���� 0000344631 00000 n Quantum Computing: Progress and Prospects provides an introduction to the field, in-cluding the unique characteristics and constraints of the technology, and assesses the feasibility and implications of creating a functional quantum computer capable of addressing real-world problems. comes from the unique computational power of a quantum computer and recent progress in creating the underlying hardware, software, and algorithms necessary to make it work. 4 0 obj 352 0 obj <> endobj trailer x��] xյ>#���>�wK��[�)�eKcŶ�lj'A!��8$��Cv0 0000001731 00000 n In the long term, such machines will very likely shape new computing and 0000005988 00000 n 0000020961 00000 n ����00�(: )a� l�h�b� �z�-`�&�ĩ!��+2!�L�64�D��d�iFA �=��nH2�, Publisher: National Academies Press 2018 ISBN-13: 9780309479691 Number of pages: 206. 8a�-P �G[��I Before quantum computers, all known realistic computing devices satisfied the extended Church- 0000001556 00000 n %PDF-1.5 0000003633 00000 n ����\�>i�:�p�g6�n��� Q �>3ɫp��?��bο�+E!*|. endstream endobj 386 0 obj <>/Filter/FlateDecode/Index[37 315]/Length 34/Size 352/Type/XRef/W[1 1 1]>>stream 8 0 obj 0000007293 00000 n h�bb�c`b``Ń3� ����ԏ� !� <> <> }58[����. startxref 0000003275 00000 n <>/Font<>/ProcSet[/PDF/Text/ImageB/ImageC/ImageI]>>/MediaBox[0 0 720 540]/Contents 5 0 R/Group<>/Tabs/S/StructParents 0/Parent 6 0 R>> 0000003501 00000 n endobj 0000007918 00000 n endobj 0000024203 00000 n 9 0 obj 0000006673 00000 n 0000004803 00000 n 0000438282 00000 n 0000011150 00000 n [299 238 0 843 0 0 654 0 366 366 0 480 277 417 249 512 610 450 610 610 610 610 610 610 610 610 299 299 0 510 381 524 0 731 630 603 722 625 607 680 768 546 665 611 551 883 797 798 521 876 628 693 680 737 650 1040 724 0 693 0 0 0 0 0 0 512 593 514 587 548 508 531 578 280 403 540 274 777 523 526 535 520 480 487 471 520 486 684 590 521 538 0 0 0 598 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 449] Quantum Computing: Progress and Prospects by Emily Grumbling, Mark Horowitz. 0000009129 00000 n Quantum Computing: Progress and Prospects provides an introduction to the field, including the unique characteristics and constraints of the technology, and assesses the feasibility and implications of creating a functional quantum computer capable of addressing real-world problems. 5 0 obj 0000034929 00000 n H�\��n�@E�|E/�Eī�:���'���x�0��P/�����J�A�]�V�N��f;�I���������1���r���v�vNҸxw=/��SRU&���p5�~���$�z��h�6�G��.���O~\Lf����}o��ɛ���i����r}�k>��s��)n�9�tS��s��ЎG�TY. 0000011764 00000 n 0000172203 00000 n 0000009580 00000 n 1 0 obj endobj Quantum Computing: Progress and Prospects Tony Hey and Douglas Ross University of Southampton. Plan of Lectures • Lecture #1: Introduction to Quantum Information Theory – Fundamentals (Tony Hey) • Lectures #2,3 & 4: Quantum Algorithms in Detail –Bell States, Quantum �Ё�既=�#$nP�;D>T�? N�rAy|�u�+UT��p"����TJo��Z��:#�': �f�c����RSe�&w��w0T���X5�[��T�'��/b�'x��(����� �WzS��X��~��m���'wK�� <>stream 0000036319 00000 n endstream endobj 353 0 obj <>/Metadata 35 0 R/Outlines 29 0 R/Pages 34 0 R/StructTreeRoot 37 0 R/Type/Catalog/ViewerPreferences<>>> endobj 354 0 obj <>/Font<>/ProcSet[/PDF/Text/ImageB/ImageC]/XObject<>>>/Rotate 0/StructParents 0/TrimBox[0.0 0.0 612.0 792.0]/Type/Page>> endobj 355 0 obj <> endobj 356 0 obj <> endobj 357 0 obj <> endobj 358 0 obj <> endobj 359 0 obj <> endobj 360 0 obj <> endobj 361 0 obj <>stream 0 Given the technical hurdles that quantum computing faces—manipulations at nanoscale, for instance, or operating either in a vacuum environment or at cryogenic temperatures—the progress in recent years is hard to overstate.

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