Главная    Ex Libris    Книги    Журналы    Статьи    Серии    Каталог    Wanted    Загрузка    ХудЛит    Справка    Поиск по индексам    Поиск    Форум   
blank
Авторизация

       
blank
Поиск по указателям

blank
blank
blank
Красота
blank
Muga G., Ruschhaupt A., Campo A. — Time in Quantum Mechanics - Vol. 2 (Lecture Notes in Physics)
Muga G., Ruschhaupt A., Campo A. — Time in Quantum Mechanics - Vol. 2 (Lecture Notes in Physics)



Обсудите книгу на научном форуме



Нашли опечатку?
Выделите ее мышкой и нажмите Ctrl+Enter


Название: Time in Quantum Mechanics - Vol. 2 (Lecture Notes in Physics)

Авторы: Muga G., Ruschhaupt A., Campo A.

Аннотация:

This textbook is a collection of 13 articles on the concept of time in quantum theory. My review concerns #7 on that list, "Causality in superluminal pulse propagation" by R W Boyd, D J Gauthier and P Narum.

The article is mainly concerned about the preservation of special relativity (SR) in light of quantum nonlocality. In particular, they wish to preserve "relativistic causality" (RC) which they define as a principle by which "an event is linked to a previous cause as viewed from any inertial frame of reference." (p.175) They also write "faster than light...communication [FTLC] is very intriguing because relativistic causality would be violated." (p.175)

I have news for these authors: quantum nonlocality violates RC, FTLC or not. "Delayed choice" experiments for example.

The authors give a hypothetical FTLC scheme (p.188) and comment, "If such superluminal signal was possible, information could be transmitted from the positive-time light cone [to the negative]," thus allowing the operator to change the past. When you read something like this, you have to ask yourself, "if FTLC is possible, is this paradox necessarily a result?" The answer is "NO!" FTLC can still be possible, but fails when one tries to initiate the "bilking paradox" as the authors do in their example. Certainly if two distant observers attempt to communicate they can do so without initiating a paradox.

The authors go on to describe how superluminal light-pulses through dispersive media cannot be used for FTLC. But their own illustrations betray their flimsy argument. For example, on page 191 there is an event with light-cone. Look at the "pulse peak" in the illustration. Connect the two vertices of the pulse peak with a straight line. That line is spacelike. So, the pulse is sending information between these two vertices, faster-than-light. Also, if you look carefully at the illustration on page 183, you can see a similar problem.

The authors (p.192ff) do however give a convincing argument as to why Nick Herbert's 1983 "FLASH" FTLC scheme will not work. But FLASH is simply a "straw man," used by the mainstream anti-FTLC majority to discredit any attempt at FTLC, no matter how sound the arguments are. Further, I have even seen authors attempt to discredit FTLC solely on the no-cloning theorem even though cloning is not used in the scheme. In fact, while I am on the subject, even the so-called "no signaling theorem" has its faults. If the "no-signaling theorem" were correct, then you would not see interference phenomena in entangled systems!

The authors quote N Gisin (p.193): "Once again, quantum mechanics is right at the border line of contradicting relativity, but does not cross it." I think Einstein would disagree.


Язык: en

Рубрика: Разное/

Статус предметного указателя: Неизвестно

ed2k: ed2k stats

Год издания: 2009

Количество страниц: 426

Добавлена в каталог: 05.05.2016

Операции: Положить на полку | Скопировать ссылку для форума | Скопировать ID
blank
Предметный указатель
blank
Реклама
blank
blank
HR
@Mail.ru
       © Электронная библиотека попечительского совета мехмата МГУ, 2004-2024
Электронная библиотека мехмата МГУ | Valid HTML 4.01! | Valid CSS! О проекте