**Journal of Applied Mathematics and Physics**

Vol.04 No.07(2016), Article ID:68949,6 pages

10.4236/jamp.2016.47141

Skorohod Integral at Vacuum State on Guichardet-Fock Spaces

Jihong Zhang^{1}, Yongjun Li^{1}, Xiaochun Sun^{2}

^{1}School of Mathematics, Lanzhou City University, Lanzhou, China

^{2}College of Mathematics and Statistics, Northwest Normal University, Lanzhou, China

Received 23 May 2016; accepted 16 July 2016; published 19 July 2016

ABSTRACT

In this paper, we define expectation of, i.e., according to Wiener-Ito-Segal isomorphic relation between Guichardet-Fock space F and Wienerspace W. Meanwhile, we derive a formula for the expectation of random Hermite polynomial in Skorohod integral on Guichardet- Fock spaces. In particular, we prove that the anticipative Girsanov identities under the condition on Guichardet-Fock spaces.

**Keywords:**

Moment Identities, Girsanov Identities, Hermitpolynomial, Skorohod Integral, Guichardet-Fock Spaces

1. Introduction

The quantum stochastic calculus developed by Hudson and Parthasarathy [1] is essentially a noncommutative extension of classical Ito stochastic calculus. In thistheory, annihilation, creation, and number operator processes in boson Fock space play the role of “quantum noises” [2] [3], which are in continuous time. In 2002, Attal [4] discussed and extended quantum stochastic calculus by means of the Skorohod integral of anticipation processes and the related gradient operator on Guichardet-Fock spaces. Usually, Fock spaces as the models of the Particle Systems are widely used in quantumphysics. Meanwhile, vacuum states described by empty set on Guichardet-Fockspaces play very important role at quantum physics.

Recently Privault [5] [6] developed a Malliavin-type theory of stochastic calculus on Wiener spaces and showed its several interesting applications. In his article, Privault surveyed the moment identities for Skorohod integral and derived a formula for the expectation of random Hermit polynomials in Skorohod integral on Wiener spaces. It is well known that Guichardet-Fock space F and Wiener space W are Wiener-Ito-Segal isomorphic. Motivated by the above, we would like to study the expectation of random Hermit polynomials in Skorohod integral on Guichardet-Fock spaces. However, how to define the expectation on Guichardet-Fock spaces is the primary problem.

In this argument, we define expectation of according to isomorphic relation, i.e..

Meanwhile, we prove a moment identity for the Skorohod integrals and derive a formula for the expectation of random Hermite polynomial in Skorohod integral on Guichardet-Fock spaces. Particularly, under the condition, we prove the anticipative Girsanov identities on Guichardet-Fock spaces.

This paper is organized as follows. Section 2, we fix some necessarynotations and recall main notions and facts about Skorohod integral in Guichardet-Fock spaces. Section 3 and Section 4 state our main results.

2. Notations

In this section, we fix some necessary notations and recall mainnotions in Guichardet-Fock spaces. For detail formulation of Skorohod integrals, we refer reader to [4].

Let be the set of all nonnegative real numbers and the finite power set of, namely

where denotes the cardinality of as a set. Particularly, let be an atom of measure. We denote by the usual space of square integral real-valued functions on.

Fixing a complex separable Hilbert space, Guichardet-Fock space tensor product, which we identify with the space of square-integrable functions, is denoted by F.

For a Hilbert space-valued map, let

denotes the Skorohod integral operator. For a vector space-valued map, let and be the maps given by

respectively denote the stochastic gradient operator of f and the adapted gradient operator of f. Moreover, we write for the domain of the stochastic gradient as anunbounded Hilbert apace operator:

.

Definition 2.1 The value of at empty set is called the expectation of f on Guichardet-Fock space and is denoted by

Definition 2.2 For the map, the value of Skorohod integral at empty set is called the

expectation of on Guichardet-Fock space and is denoted by i.e..

Lemma 2.1 Let x be a map, if x is square integrable and the function is integrable, then and

(2.1)

we denote

Lemma 2.2 Let and let be Skorohod integrable, if the map

is integrable, then

(2.2)

Lemma 2.3 Let be measurable. For, we have

(2.3)

where,.

Theorem 2.1 For any and, we have

(2.4)

where

Lemma 2.4 Let and. Then for all we have

3. Random Hermit Polynomials

In Theorem 3.1 below, we compute the expectation of the random Hermit polynomial with respect to the Skorohod integral. This result will be applied in Section 4 to anticipate Girsanov identities on Guichardet-Fock spaces.

Theorem 3.1 For any and, we have

Especially, for and

(3.1)

then we have

. (3.2)

Proof We divide two steps to prove the stability result.

Step 1. We first prove that for any,

For and, we have

replace 1 above with, we have

Hence, taking, we get

Step 2. For, and, we have

Hence, replacing 1 above with, we get

thus letting above, and use (2.3) in step 1, we get

4. Girsanov Identities

Corollary 4.1 Assume that with and that holds (3.1). Then, we

have

Proof We have

hence

By Theorem 3.1 and Fubini theorem, we have

This shows that is deterministic and holds (3.1),

we have

i.e. has a centered Gaussian distribution with variance on Guichardet-Fock spaces.

Acknowledgements

The authors are extremely grateful to the referees for their valuable comments and suggestions on improvement of the first version of the present paper. The authors are supported by National Natural Science Foundation of China (No. 11261027 and No. 11461061), supported by scientific research projects in Colleges and Universities in gansu province (No. 2015A-122) and supported by doctoral research start-up fund project of Lanzhou City Universities (No. LZCU-BS2015-02) and SRPNWNU (No. NWNU-LKQW-14-2).

Cite this paper

Jihong Zhang,Yongjun Li,Xiaochun Sun, (2016) Skorohod Integral at Vacuum State on Guichardet-Fock Spaces. *Journal of Applied Mathematics and Physics*,**04**,1321-1326. doi: 10.4236/jamp.2016.47141

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