A Present Position-Dependent Conditional Fourier-Feynman Transform and Convolution Product over Continuous Paths

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1 International Journal of Mathematical Analysis Vol. 9, 05, no. 48, HIKARI Ltd, A Present Position-Dependent Conditional Fourier-Feynman Transform and Convolution Product over Continuous Paths Dong Hyun Cho Department of Mathematics, Kyonggi University Suwon 67, Korea Suk Bong Park Department of Mathematics, Korea Military Academy Seoul PO Box 77-, Korea Mijin Go Department of Mathematics, Kyonggi University Suwon 67, Korea Copyright c 05 Dong Hyun Cho et al. This article is distributed under the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited. Abstract Let C0, t] denote the function space of all real-valued continuous paths on 0, t]. Define X n+ : C0, t] R n+ by X n+ (x) (x(t 0 ), x(t ),, x(t n ), x(t n+ )), where 0 t 0 < t < < t n < t n+ t is a partition of 0, t]. In the present paper, using a simple formula for the conditional expectation with the conditioning function X n+, we evaluate the L p ( p )-analytic conditional Fourier-Feynman transforms and the conditional convolution products of the cylinder functions which have the form f((v, x),, (v r, x)) for x C0, t], where {v,, v r } is an orthonormal subset of L 0, t] and f L p ( ). We then investigate several relationships between the conditional Fourier- Feynman transforms and the conditional convolution products of the cylinder functions.

2 388 D. H. Cho, S. B. Park and M. Go Mathematics Subject Classification: 8C0, 44A0 Keywords: analogue of Wiener measure, analytic conditional Feynman integral, analytic conditional Fourier-Feynman transform, analytic conditional Wiener integral, conditional convolution product Introduction and preliminaries Let C 0 0, t] denote the Wiener space, that is, the space of the real-valued continuous functions x on the closed interval 0, t] with x(0) 0. On the space C 0 0, t], the concept of an analytic Fourier-Feynman transform was introduced by Brue ]. Huffman, Park and Skoug 9] defined a convolution product on C 0 0, t] and then, established various relationships between the analytic Fourier-Feynman transform and the convolution product. Furthermore Chang and Skoug 4] introduced the concepts of conditional Fourier-Feynman transform and conditional convolution product on the Wiener space C 0 0, t]. In that paper they also examined the effects that drift has on the conditional Fourier-Feynman transform, the conditional convolution product, and various relationships that occur between them. Further works were studied by Chang, Cho, Kim, Song and Yoo 3, 7]. In fact Cho and his coauthors 3] introduced the L -analytic conditional Fourier-Feynman transform and the conditional convolution product over Wiener paths in abstract Wiener space and then, established the relationships between them of certain cylinder type functions. Cho 7] extended the relationships between the conditional convolution product and the L p ( p )-analytic conditional Fourier-Feynman transform of the same kind of cylinder type functions. Moreover, on C0, t], the space of the real-valued continuous paths on 0, t], Kim ] extended the relationships between the conditional convolution product and the L p ( p )-analytic conditional Fourier-Feynman transform of the functions in a Banach algebra which corresponds to the Cameron-Storvick s Banach algebra S ]. Cho 5] introduced the L -analytic conditional Fourier-Feynman transform and the conditional convolution product over C0, t] and then, established the relationships between them of certain cylinder type functions. In this paper we further develop the relationships in 3, 5, 7, ] on the more generalized space (C0, t], w ϕ ), the analogue of the Wiener space associated with the probability measure ϕ on the Borel class B(R) of R 0, 4, 5]. For the conditioning function X n+ : C0, t] R n+ given by X n+ (x) (x(t 0 ), x(t ),, x(t n ), x(t n+ )), where 0 t 0 < t < < t n < t n+ t is a partition of 0, t], we proceed to study the relationships between the conditional convolution product and the analytic conditional Fourier-Feynman transform of the cylinder functions defined on C0, t]. In fact, using a simple formula for the conditional w ϕ -integrals given X n+ 6], we evaluate the L p ( p )-

3 Present position-dependent conditional transform and convolution product 389 analytic conditional Fourier-Feynman transforms and the conditional convolution products for the cylinder functions of the form f((v, x),, (v r, x)) for w ϕ -a.e. x C0, t], where {v,, v r } is an orthonormal set in L 0, t] and f L p ( ). We then investigate several relationships between the conditional Fourier-Feynman transforms and the conditional convolution products of the cylinder functions. Finally we show that the L p -analytic conditional Fourier-Feynman transform T q (p) (F G) q X n+ ](, ξ n ) X n+ ] of the conditional convolution product for the cylinder functions F and G, can be expressed by the formula T (p) q (F G) q X n+ ](, ξ n+ ) X n+ ](y, ζ n+ ) ( )] T q (p) F X n+ ] y, ( ζ n+ + ξ n+ ) ( )] T q (p) G X n+ ] y, ( ζ n+ ξ n+ ) for a nonzero real q, w ϕ -a.e. y C0, t] and P Xn+ -a.e. ξn+, ζ n+ R n+, where P Xn+ is the probability distribution of X n+ on the Borel class of R n+. Thus the analytic conditional Fourier-Feynman transform of the conditional convolution product for the cylinder functions, can be interpreted as the product of the conditional analytic Fourier-Feynman transform of each function. Throughout this paper let C and C + denote the set of complex numbers and the set of complex numbers with positive real parts, respectively. Now we introduce the concrete form of the probability measure w ϕ on (C0, t], B(C0, t])). For a positive real t let C C0, t] be the space of all real-valued continuous functions on the closed interval 0, t] with the supremum norm. For t (t 0, t,, t n ) with 0 t 0 < t < < t n t let J t : C0, t] R n+ be the function given by J t (x) (x(t 0), x(t ),, x(t n )). For B j (j 0,,, n) in B(R), the subset J ( n t j0 B j) of C0, t] is called an interval and let I be the set of all such intervals. For a probability measure ϕ on (R, B(R)), let ( n )] m ϕ J B t j j0 n π(t j j t j ) { exp n j ] n B0 j B j (u j u j ) t j t j } d(u,, u n )dϕ(u 0 ). Then B(C0, t]), the Borel σ-algebra of C0, t] coincides with the smallest σ- algebra generated by I and there exists a unique probability measure w ϕ on (C0, t], B(C0, t])) such that w ϕ (I) m ϕ (I) for all I in I. This measure w ϕ is called an analogue of the Wiener measure associated with the probability measure ϕ 0, 4, 5, 7].

4 390 D. H. Cho, S. B. Park and M. Go Let {e k : k,, } be a complete orthonormal subset of L 0, t] such that each e k is of bounded variation. For v in L 0, t] and x in C0, t] let (v, x) lim n n k v, e k t e 0 k(s)dx(s) if the limit exists, where, denotes the inner product over L 0, t]. (v, x) is called the Paley-Wiener-Zygmund integral of v according to x. We note that the dot product on the r-dimensional Euclidean space is also denoted by,. Applying Theorem 3.5 in 0], we can easily prove the following theorem. Theorem. Let {h, h,, h r } be an orthonormal subset of L 0, t]. For i,,, r, let Z i (x) (h i, x) on C0, t]. Then Z, Z,, Z r are independent and each Z i has the standard normal distribution. Moreover, if f : R is Borel measurable, then f(z (x), Z (x),, Z r (x))dw ϕ (x) C ( ) r { f(u, u,, u r ) exp π Rr r j u j } d(u, u,, u r ), where means that if either side exists then both sides exist and they are equal. Let F : C0, t] C be integrable and X be a random vector on C0, t] assuming that the value space of X is a normed space equipped with the Borel σ-algebra. Then we have the conditional expectation EF X] of F given X from a well known probability theory 3]. Furthermore there exists a P X -integrable complex-valued function ψ on the value space of X such that EF X](x) (ψ X)(x) for w ϕ -a.e. x C0, t], where P X is the probability distribution of X. The function ψ is called the conditional w ϕ -integral of F given X and it is also denoted by EF X]. Throughout this paper let 0 t 0 < t < < t n < t n+ t be a partition of 0, t] unless otherwise specified. For any x in C0, t] define the polygonal function x] of x by x](s) n+ ( tj s χ (tj,t j ](s) x(t j ) + s t ) j x(t j ) t j t j t j t j j +χ {t0 }(s)x(t 0 ) () for s 0, t], where χ (tj,t j ] and χ {t0 } denote the indicator functions. Similarly, for ξ n+ (ξ 0, ξ,, ξ n+ ) R n+, define the polygonal function ξ n+ ] of ξ n+ by (), where x(t j ) is replaced by ξ j for j 0,,, n +. In the following theorem we introduce a simple formula for the conditional w ϕ -integrals on C0, t] 6].

5 Present position-dependent conditional transform and convolution product 39 Theorem. Let F : C0, t] C be integrable and let X n+ : C0, t] R n+ be given by X n+ (x) (x(t 0 ), x(t ),, x(t n ), x(t n+ )). () Then, for P Xn+ -a.e. ξ n+ R n+, EF X n+ ]( ξ n+ ) EF (x x] + ξ n+ ])], (3) where the expectation is taken over the variable x and P Xn+ distribution of X n+ on (R n+, B(R n+ )). is the probability For a function F : C0, t] C and λ > 0, let F λ (x) F (λ x) and X λ n+(x) X n+ (λ x), where X n+ is given by (). Suppose that EF λ ] exists for each λ > 0. By the definition of the conditional w ϕ -integral and (3), EF λ X λ n+]( ξ n+ ) EF (λ (x x]) + ξ n+ ])] for P X λ n+ -a.e. ξn+ R n+, where P X λ n+ is the probability distribution of X λ n+ on (R n+, B(R n+ )). Throughout this paper, for y C0, t] let I λ F (y, ξ n+ ) EF (y +λ (x x])+ ξ n+ ])] unless otherwise specified, where the expectation is taken over the variable x. If I λ F (0, ξ n+ ) has the analytic extension J λ (F )( ξ n+ ) on C + as a function of λ, then it is called the analytic conditional Wiener w ϕ -integral of F given X n+ with parameter λ and denoted by E anw λ F Xn+ ]( ξ n+ ) J λ (F )( ξ n+ ) for ξ n+ R n+. Moreover, if for a nonzero real q, E anw λ F Xn+ ]( ξ n+ ) has the limit as λ approaches to iq through C +, then it is called the analytic conditional Feynman w ϕ -integral of F given X n+ with parameter q and denoted by E anfq F X n+ ]( ξ n+ ) lim λ iq E anw λ F Xn+ ]( ξ n+ ). The conditional Fourier-Feynman transform For a given extended real number p with < p suppose that p and p are related by + (possibly p if p ). Let F p p n and F be measurable functions such that lim n C F n(x) F (x) p dw ϕ (x) 0. Then we write l.i.m. n (wp )(F n ) F and call F the limit in the mean of order p. A similar definition is understood when n is replaced by a continuously varying parameter. We now define the analytic conditional Fourier-Feynman transform of the functions on C0, t]. Definition. Let F be defined on C0, t] and X n+ be given by (). For λ C + and w ϕ -a.e. y C0, t], let T λ F X n+ ](y, ξ n+ ) E anw λ F (y + ) X n+ ]( ξ n+ )

6 39 D. H. Cho, S. B. Park and M. Go for P Xn+ -a.e. ξn+ R n+ if it exists. For a nonzero real q and w ϕ -a.e. y C0, t], define the L -analytic conditional Fourier-Feynman transform F X n+ ] of F given X n+ by the formula T () q T () q F X n+ ](y, ξ n+ ) E anfq F (y + ) X n+ ]( ξ n+ ) for P Xn+ -a.e. ξ n+ R n+ if it exists. For < p, define the L p - analytic conditional Fourier-Feynman transform T q (p) F X n+ ] of F given X n+ by the formula T q (p) F X n+ ](, ξ n+ ) l.i.m. λ iq (wp )(T λ F X n+ ](, ξ n+ )) for P Xn+ -a.e. ξ n+ R n+, where λ approaches to iq through C +. For each j,, n +, let α j tj χ (tj,t t j ] on 0, t]. Let V be the j subspace of L 0, t] generated by {α,, α n+ } and V denote the orthogonal complement of V. Let P and P be the orthogonal projections from L 0, t] to V and V, respectively. Throughout this paper let {v, v,, v r } be an orthonormal subset of L 0, t] such that {P v,, P v r } is an independent set. Let {e,, e r } be the orthonormal set obtained from {P v,, P v r } by the Gram-Schmidt orthonormalization process. Now, for l,, r, let P v l r α lj e j (4) j be the linear combinations of the e j s and let α α α r α α α r A.... α r α r α rr be the transpose of the coefficient matrix of the combinations. We can also regard A as the linear transformation T A : given by T A z za, (5) where z is any row-vector in. We note that A is invertible so that T A is an isomorphism. For convenience let ( v, x) ((v, x),, (v r, x)) for x C0, t]. For p let A (p) r be the space of the cylinder functions F r of the form given by F r (x) f r ( v, x) (6)

7 Present position-dependent conditional transform and convolution product 393 for w ϕ -a.e. x C0, t], where f r L p ( ). We note that, without loss of generality, we can take f r to be Borel measurable. We evaluate the conditional Fourier-Feynman transform of cylinder function in the following theorem. Theorem. Let X n+ be given by (). Let F r A (p) r ( p ) and f r be related by (6). Then for λ C +, w ϕ -a.e. y C0, t] and P Xn+ -a.e. ξ n+ R n+, T λ F r X n+ ](y, ξ n+ ) exists and it is given by T λ F r X n+ ](y, ξ n+ ) ( ) r λ f r (( v, y) + ( v, ξ π n+ ]) + T A z) exp { λ } z Rr d z, (7) Rr where T A is given by (5). As a function of y, T λ F r X n+ ](, ξ n+ ) A (p) r. Proof. For λ > 0, w ϕ -a.e. y C0, t] and P Xn+ -a.e. ξ n+ R n+ ( ) r IF λ r (y, ξ n+ ) λ f r (( v, y) + ( v, ξ π n+ ]) + T A z) exp { λ } z Rr d z Rr by Lemma. of 5]. variable theorem We note that if p <, then by the change of f r (( v, y) + ( v, ξ n+ ]) + T A z) p d z det(a ) f r p p <, (8) where A is the inverse of the matrix A given by (5). Now, by Morera s theorem with aids of Hölder s inequality and the dominated convergence theorem, we have (7) for λ C +. To prove the remainder of the theorem, for λ C + and for u, let ( ) r { λ Ψ(λ, u) exp λ π u R }. (9) r By the change of variable theorem γ(λ, u, ξ n+ ) ( ) r λ f r ( u + ( v, ξ π n+ ]) + T A z) exp { λ } d z z Rr Rr f r (T A ((( v, ξ n+ ]) + u)a z))ψ(λ, z)d z (f r (T A ) Ψ(λ, ))((( v, ξ n+ ]) + u)a ). (0) By (8), f r (T A ) L p ( ) and Ψ(λ, ) L ( ) so that f r (T A ) Ψ(λ, ) L p ( ) by Young s inequality 8, p.3]. Now γ(λ,, ξ n+ ) (f r (T A ) Ψ(λ, ))((( v, ξ n+ ]) + )A ) L p ( ) by the change of variable theorem which completes the proof.

8 394 D. H. Cho, S. B. Park and M. Go Theorem.3 Let X n+ be given by (). Let F r A (p) r ( p ) and f r be related by (6). Then for a nonzero real q, w ϕ -a.e. y C0, t] and P Xn+ - a.e. ξ n+ R n+, T q (p) F r X n+ ](y, ξ n+ ) exists and it is given by (7), where λ is replaced by iq. Furthermore, as a function of y, T q (p) F r X n+ ](, ξ n+ ) A (p ) r, where + if < p and p if p. p p Proof. When p, the results follow from Theorem. of 5]. Suppose that < p. For either λ C + or λ iq, for u and ξ n+ R n+, let Ψ(λ, u) and γ(λ, u, ξ n+ ) be given by (9) and (0), respectively. By (8), f r (T A ) belongs to L p ( ) so that f r (T A ) Ψ(λ, ) L p ( ) by Lemma. of ]. Now γ(λ,, ξ n+ ) (f r (T A ) Ψ(λ, ))((( v, ξ n+ ]) + )A ) belongs to L p ( ) by the change of variable theorem. Let T q (p) F r X n+ ](y, ξ n+ ) γ( iq, ( v, y), ξ n+ ) formally for w ϕ -a.e. y C0, t] and P Xn+ -a.e. ξ n+ R n+. Then T λ F r X n+ ](y, ξ n+ ) T q (p) F r X n+ ](y, ξ n+ ) p dw ϕ (y) C γ(λ, ( v, y), ξ n+ ) γ( iq, ( v, y), ξ n+ ) p dw ϕ (y) C ( π ( π ) r γ(λ, u, ξ n+ ) γ( iq, u, ξ n+ ) p exp { } u Rr d u Rr ) r Rr (f r (T A ) Ψ(λ, ))((( v, ξ n+ ]) + u)a ) (f r (T A ) Ψ( iq, ))((( v, ξ n+ ]) + u)a ) p exp { } u Rr d u by Theorems. and.. Let z (( v, ξ n+ ]) + u)a. Then, by the change of variable theorem, T λ F r X n+ ](y, ξ n+ ) T q (p) F r X n+ ](y, ξ n+ ) p dw ϕ (y) C det(a) (f r (T A ) Ψ(λ, ))( z) (f r (T A ) Ψ( iq, ))( z) p d z which converges to 0 as λ approaches to iq through C + by Lemma. of ]. Now the proof is completed. Theorem.4 Let X n+ be given by (). Let F r A (p) r ( p ) and f r be related by (6). For w ϕ -a.e. y C0, t] and P Xn+ -a.e. ξ n+, ζ n+ R n+, let F r (y, ξ n+, ζ n+ ) f r (( v, y) + ( v, ξ n+ + ζ n+ ])). Then, for a nonzero real q, T λ T λ F r X n+ ](, ξ n+ ) X n+ ](y, ζ n+ ) F r (y, ξ n+, ζ n+ ) p dw ϕ (y) 0 C

9 Present position-dependent conditional transform and convolution product 395 for p <, and for p T λ T λ F r X n+ ](, ξ n+ ) X n+ ](y, ζ n+ ) F r (y, ξ n+, ζ n+ ) as λ approaches to iq through C +. Proof. Note that T λ T λ F r X n+ ](, ξ n+ ) X n+ ](y, ζ n+ ) is well-defined by Theorem.. For λ C +, w ϕ -a.e. y C0, t] and P Xn+ -a.e. ξ n+, ζ n+ R n+, T λ T λ F r X n+ ](, ξ n+ ) X n+ ](y, ζ n+ ) ( ) r λ f r (T A ((( v, ξ 4πReλ n+ + ζ n+ ]) + ( v, y))a η)) Rr } exp { λ 4Reλ η R d η r ( ) r ( ( ( ) )) λ λ f r (T A ) Ψ, ((( v, ξ Reλ Reλ n+ + ζ n+ ]) +( v, y))a ) by Theorem.3 of 5], where Ψ is given by (9). We have Ψ(, u)d u and hence Ψ(, ) L ( ), and ess. sup{ Ψ(, z) : z u } Ψ(, u) is an L -function of u. Furthermore f r (T A ) is in L p ( ) by (8). Let ɛ ( Reλ ) λ > 0. By Theorem. and Theorem.8 of 6] T λ T λ F r X n+ ](, ξ n+ ) X n+ ](y, ζ n+ ) F r (y, ξ n+, ζ n+ ) p dw ϕ (y) C ( (f ɛ r r (T A ) Ψ, )) ((( v, ξ C ɛ n+ + ζ n+ ]) + ( v, y))a ) f r (T A (( v, ξ n+ + ζ p n+ ]) + ( v, y))a ) dw ϕ (y) ( det(a) (f ɛ r r (T A ) Ψ, )) p ( u) f r (T A u) ɛ d u which converges to 0 if p <, and by Theorem.5 of 6] T λ T λ F r X n+ ](, ξ n+ ) X n+ ](y, ζ n+ ) ( ɛ (f r r (T A ) Ψ, )) ((( v, ξ ɛ n+ + ζ n+ ]) + ( v, y))a ) which converges to f r (T A (( v, ξ n+ + ζ n+ ]) + ( v, y))a ) F r (y, ξ n+, ζ n+ ) if p, as λ approaches iq through C +.

10 396 D. H. Cho, S. B. Park and M. Go 3 The conditional convolution product In this section we derive the conditional convolution product of cylinder functions and investigate various relationships between the conditional Fourier- Feynman transform and convolution product. To do this we need the following definition. Definition 3. Let X n+ be given by (), and F and G be defined on C0, t]. Define the conditional convolution product (F G) λ X n+ ] of F and G given X n+ by the formula, for w ϕ -a.e. y C0, t] (F G) λ X n+ ](y, ξ n+ ) ( ( ) E anw λ y + y F )G X n+ ]( ξ n+ ), λ C + ; ( ( ) y + y E F anfq )G X n+ ]( ξ n+ ), λ iq; q R {0} if they exist for P Xn+ -a.e. ξn+ R n+. If λ iq, we can replace (F G) λ X n+ ] by (F G) q X n+ ]. Theorem 3. Let F r A (p ) r, G r A (p ) r and f r, g r be related by (6), respectively, where p, p. Furthermore let p +, p p + p and X n+ be given by (). Then for λ C +, w ϕ -a.e. y C0, t] and P Xn+ -a.e. ξ n+ R n+, (F r G r ) λ X n+ ](y, ξ n+ ) exists and it is given by ( ) (F r G r ) λ X n+ ](y, ξ n+ ) f r ( v, y + ξ n+ ]) + T A z] ( ) g r ( v, y ξ n+ ]) T A z] Ψ(λ, z)d z, where T A and Ψ are given by (5) and (9), respectively. Furthermore, as functions of y, (F r G r ) λ X n+ ](, ξ n+ ) A () r if either p p or p p, (F r G r ) λ X n+ ](, ξ n+ ) A (p ) r if p p and (F r G r ) λ X n+ ](, ξ n+ ) A (p ) r if p p. Proof. Using the same method as used in the proof of Theorem.4 of 5], for λ > 0, w ϕ -a.e. y C0, t] and P Xn+ -a.e. ξ n+ R n+, (F r G r ) λ X n+ ](y, ξ n+ ) ( ) f r ( v, y + ξ n+ ]) + T A z] ( ) g r ( v, y ξ n+ ]) T A z] Ψ(λ, z)d z

11 Present position-dependent conditional transform and convolution product 397 by Lemma. of 5]. Now, for λ C + and u, let ( ) γ ( u) f r u + ( v, ξ n+ ]) + T A z] ( ) g r u ( v, ξ n+ ]) T A z] Ψ(λ, z)d z () formally, and suppose that p p. Let p ( u+t A z) and q ( u T A z). Then u ( p+ q) and z ( p q)a. By the change of variable theorem, ( γ ( u) d u det(a ) f r p + ( v, ξ n+ ])) ( g r q ) ( ) ( v, ξ n+ ]) Ψ λ, ( p q)a d qd p det(a ) f r ( p) ( g r Ψ )( p)d p, where f r ( p) f r ( p + ( v, ξ n+ ])), g r ( p) g r ( p ( v, ξ n+ ])) and Ψ ( p) Ψ(λ, pa ) ( λ ) r exp{ λ π 4 pa }. Now let p + +. Since q p p p, we have + q p p p p +p p and 0 p p p (p ) + p p p + p p p p if < p and p <. Hence q for p, p. On the other hand, Ψ L q ( ). Now by the general form of Young s inequality 8, Theorem 8.9] and Hölder s inequality γ ( u) d u det(a ) f r p ( g r Ψ ) p det(a ) f r p g r p Ψ q < which shows that γ L ( ) and hence (F r G r ) λ X n+ ](, ξ n+ ) A () r. Similarly (F r G r ) λ X n+ ](, ξ n+ ) A () r if p p. Suppose that < p p <. Then by Hölder s inequality and the change of variable theorem ( γ ( u) p d u det(a ) r p ] p f r p p Ψ(λ, z)g r T A (( u R ) r ( v, ξ p ] p n+ ]))A p z) d z d u det(a ) r p ] p f r p p (( u ( v, ξ n+ ]))A ) R ] r p p d u. ( ( ) Ψ(λ, ) p p ) g r T A

12 398 D. H. Cho, S. B. Park and M. Go Let z ( u ( v, ξ n+ ]))A. By Young s inequality and the change of variable theorem γ ( u) p d u det(a) det(a ) r p ] p f r p g r ( ) p p p T A p p det(a) det(a ) r ] p p + f r p p p Ψ(λ, ) p p p Ψ(λ, ) p p g r p p <. Suppose that p p <. Then p. Hence by the change of variable theorem and Young s inequality γ ( u) p d u ( ( ) ) f r p Ψ(λ, ) g r T A (( u ( v, p ξ n+ ]))A )] d u ( ) det(a) f r p Ψ(λ, ) p p g r T A r fr p ψ(λ, ) p g r p p <. Let < p p. Then we have by the change of variable theorem and Hölder s inequality ( ) γ ( u) g r f r u + ( v, ξ n+ ]) + T A z] Ψ(λ, z) d z g r det(a ) r ] p f r p Ψ(λ, ) p for u. Let p p. Then p and we have γ ( u) f r g r Ψ(λ, ) for u. Consequently we have γ L p ( ) for p and hence (F r G r ) λ X n+ ](, ξ n+ ) A (p ) r. Similarly we can prove (F r G r ) λ X n+ ](, ξ n+ ) A (p ) r if p p. Note that the existence of (F r G r ) λ X n+ ] follows from Morera s theorem with an aid of the dominated convergence theorem. Theorem 3.3 Let X n+ be given by () and q be a nonzero real number. Then for λ C + or λ iq, and ξ n+ R n+, we have the followings:. if F r, G r A () r, then (F r G r ) λ X n+ ](, ξ n+ ) A () r,. if F r, G r A () r, then (F r G r ) λ X n+ ](, ξ n+ ) A ( ) r, p

13 Present position-dependent conditional transform and convolution product if F r A () r and G r A () r, then (F r G r ) λ X n+ ](, ξ n+ ) A () r, 4. if F r A () r and G r A () r A () r, then (F r G r ) λ X n+ ](, ξ n+ ) A () r A () r, and 5. if F r A () r and G r A ( ) r, then (F r G r ) λ X n+ ](, ξ n+ ) A ( ) r. Proof. Let F r, G r and f r, g r be related by (6), respectively. Furthermore, for λ C + or λ iq, let γ be given by ().. The result follows from Theorem.4 of 5].. We have for u γ ( u) Ψ(λ, ) g r ( ) f r u + ( v, ξ ] n+ ]) + T A z] d z ( u ( v, ξ n+ ]) T A z] ) ] d z r det(a ) Ψ(λ, ) f r g r < by Hölder s inequality and the change of variable theorem. By the dominated convergence theorem, (F r G r ) q X n+ ] exists and () follows. 3. We have γ ( u) d u ( ) ( Ψ(λ, ) f r u + ( v, ξ n+ ]) + T A z] g r u ] ( ( v, ξ n+ ]) T A z]) d z f r u + ( v, ξ n+ ]) + T A w]) g r R ( r ] u ( v, ξ n+ ]) T A w]) d w d u. Let α ( u+t A z) and β ( u+t A w). Then we have by the change of variable theorem and Hölder s inequality γ ( u) d u r det(a ) Ψ(λ, ) + ) ( v, ξ n+ ]) g r ( v, ξ n+ ]) β) d ud βd α r det(a ) Ψ(λ, ) f r g r <. ( f r α + ) ( ( v, ξ n+ ]) f r β R ( r ( u u ( v, ξ n+ ]) α) g r

14 400 D. H. Cho, S. B. Park and M. Go 4. The result follows from () and (3). 5. It follows immediately from F r A () r theorem. Now the proof is completed. and the dominated convergence Now applying the same method as used in the proof of Theorem 4. of 5], we have the following theorem from Theorems. and 3.. Theorem 3.4 Let F r, G r p A (p) r and let X n+ be given by (). Then for λ C +, w ϕ -a.e. y C0, t] and P Xn+ -a.e. ξ n+, ζ n+ R n+, we have T λ (F r G r ) λ X n+ ](, ξ n+ ) X n+ ](y, ζ n+ ) ( )] T λ F r X n+ ] y, ( ζ n+ + ξ n+ ) ( )] T λ G r X n+ ] y, ( ζ n+ ξ n+ ). We have the following relationships between the conditional Fourier-Feynman transform and the convolution products from Theorems.3, 3.3, 3.4 and Theorem 4. of 5]. Theorem 3.5 Let X n+ be given by () and q be nonzero real. Then we have the followings;. if F r, G r A () r, then we have for w ϕ -a.e. y C0, t] and P Xn+ -a.e. ξ n+, ζ n+ R n+ T () q (F r G r ) q X n+ ](, ξ n+ ) X n+ ](y, ζ n+ ) ( )] T q () F r X n+ ] y, ( ζ n+ + ξ n+ ) ( )] T q () G r X n+ ] y, ( ζ n+ ξ n+ ),. if F r A () r and G r A () r, then we have for w ϕ -a.e. y C0, t] and P Xn+ -a.e. ξ n+, ζ n+ R n+ T () q (F r G r ) q X n+ ](, ξ n+ ) X n+ ](y, ζ n+ ) ( )] T q () F r X n+ ] y, ( ζ n+ + ξ n+ ) ( )] T q () G r X n+ ] y, ( ζ n+ ξ n+ ).

15 Present position-dependent conditional transform and convolution product 40 4 Evaluation formulas for bounded cylinder functions Let ˆM( ) be the set of all functions φ on defined by φ( u) exp{i u, z }dρ( z), () where ρ is a complex Borel measure of bounded variation over. For w ϕ -a.e. x C0, t], let Φ be given by where φ is given by (). Now we have the following theorem. Φ(x) φ( v, x) (3) Theorem 4. Let p. Let X n+ and Φ be given by () and (3), respectively. Then for λ C +, w ϕ -a.e. y C0, t] and P Xn+ -a.e. ξ n+ R n+, T λ F X n+ ](y, ξ n+ ) exists and it is given by T λ Φ X n+ ](y, ξ n+ ) { exp i ( v, y) + ( v, ξ n+ ]), z λ T A T z } dρ( z), (4) where A T is the transpose of A and T A T z za T for z. For nonzero real q, w ϕ -a.e. y C0, t] and P Xn+ -a.e. ξ n+ R n+, T q (p) Φ X n+ ](y, ξ n+ ) exists and it is given by (4), where λ is replaced by iq. Furthermore, as functions of y, T q (p) Φ X n+ ](, ξ n+ ) A ( ) r. Proof. For λ C +, w ϕ -a.e. y C0, t] and P Xn+ -a.e. ξ n+ R n+ we have by Theorem. T λ Φ X n+ ](y, ξ n+ ) ( λ ) r φ(( v, y + ξ n+ ]) + T A z) exp ) Rr r exp{i ( v, y + ξ n+ ]), u } Rr π ( λ π d zdρ( u) { exp i ( v, y + ξ n+ ]), u λ T A T u R { λ } d z z Rr exp {i z, T AT u Rr λ } z Rr } dρ( u), where the last equality follows from the well-known integration formula ( ) } π exp{ au + ibu}du exp { b a 4a (5)

16 40 D. H. Cho, S. B. Park and M. Go for a C + and any real b. Let T q (p) Φ X n+ ](y, ξ n+ ) be formally given by (4), where λ is replaced by iq. For p, the final result follows from the dominated convergence theorem. Now let < p and +. Then p p we have T λ Φ X n+ ](y, ξ n ) T (p) q Φ X n+ ](y, ξ n+ ) p ( ρ ) p so that by the dominated convergence theorem T λ Φ X n+ ](y, ξ n+ ) T q (p) Φ X n+ ](y, ξ n+ ) p dw ϕ (y) C converges to 0 as λ approaches iq through C +. Theorem 4. Let p. Then, under the assumptions as given in Theorem 4., we have for P Xn+ -a.e. ξ n+, ζ n+ R n+ T λ T λ Φ X n+ ](, ξ n+ ) X n+ ](, ζ n+ ) φ( v, + ξ n+ + ζ n+ ]) p 0 as λ approaches iq through C +. Proof. By Theorem 4., T λ T λ Φ X n+ ](, ξ n+ ) X n+ ](y, ζ n+ ) is well-defined so that we have for λ C + T λ T λ Φ X n+ ](, ξ n+ ) X n+ ](y, ζ n+ ) { exp i ( v, y + ξ n+ + ζ n+ ]), z λ T A T z R } r λ T A T z dρ( z) { exp i ( v, y + ξ n+ + ζ n+ ]), z Re λ } R λ T r A T z R dρ( z) r which converges to φ( v, y + ξ n+ + ζ n+ ]) as λ approaches iq through C + by the dominated convergence theorem. We have T λ T λ Φ X n+ ](, ξ n+ ) X n+ ](y, ζ n+ ) φ( v, y + ξ n+ + ζ n+ ]) { exp i ( v, y + ξ n+ + ζ n+ ]), z Re λ } R λ T r A T z ] exp{i ( v, y + ξ n+ + ζ n+ ]), z } dρ( z) { exp Re λ } λ T A T z R r d ρ ( z)

17 Present position-dependent conditional transform and convolution product 403 so that the inequality is independent of y, and for p < T λ T λ Φ X n+ ](, ξ n+ ) X n+ ](y, ζ n+ ) φ( v, C { y + ξ n+ + ζ n+ ]) p dw ϕ (y) exp Re λ } ] λ T p A T z R r d ρ ( z) which converges to 0 as λ approaches iq through C + by the dominated convergence theorem which completes the proof. Theorem 4.3 Let φ, φ and ρ, ρ be related by (), respectively, and let Φ (x) φ ( v, x) and Φ (x) φ ( v, x) for w ϕ -a.e. x C0, t]. Furthermore let X n+ be given by (). Then for λ C +, w ϕ -a.e. y C0, t] and P Xn+ -a.e. ξ n+ R n+, (Φ Φ ) λ X n+ ](y, ξ n+ ) exists and it is given by { (Φ Φ ) λ X n+ ](y, ξ i n+ ) exp ( v, y), z + w + ( v, ξ n+ ]), z w ] } 4λ T A T ( z w) R dρ r ( z)dρ ( w), where T A T is as given in Theorem 4.. For nonzero real q, (Φ Φ ) q X n+ ](y, ξ n+ ) is given by the above equation, where λ is replaced by iq. Furthermore, as a function of y, (Φ Φ ) q X n+ ](, ξ n+ ) A ( ) r. Proof. By Theorem 3., we have for λ C +, w ϕ -a.e. y C0, t] and P Xn+ -a.e. ξ n+ R n+ (Φ Φ ) λ X n+ ](y, ξ n+ ) ( ) ( ) ( v, y + ξ n+ ]) + T A z] φ ( v, y ξ n+ ]) T A z] φ Ψ(λ, z)d z ( ) r { } λ i exp ( v, y), u + w + ( v, ξ π n+ ]), u w ] Rr { i exp T A z, u w λ z R }d zdρ r ( u)dρ ( w) { i exp ( v, y), u + w + ( v, ξ n+ ]), u w ] 4λ T A T ( u w) }dρ ( u)dρ ( w), where the last equality follows from (5). By the dominated convergence theorem, we have the theorem. Now we have the final theorem of our work.

18 404 D. H. Cho, S. B. Park and M. Go Theorem 4.4 Let X n+ be given by (), q be nonzero real and p. Furthermore let Φ and Φ be as given in Theorem 4.3. Then we have for w ϕ -a.e. y C0, t] and P Xn+ -a.e. ξ n+, ζ n+ R n+ T (p) q (Φ Φ ) q X n+ ](, ξ n+ ) X n+ ](y, ζ n+ ) ( )] T q (p) Φ X n+ ] y, ( ζ n+ + ξ n+ ) ( )] T q (p) Φ X n+ ] y, ( ζ n+ ξ n+ ). Proof. By Theorems. and 4.3 we have for λ C +, w ϕ -a.e. y C0, t] and P Xn+ -a.e. ξ n+, ζ n+ R n+ T λ (Φ Φ ) q X n+ ](, ξ n+ ) X n+ ](y, ζ n+ ) ( ) r { λ i exp ( v, y + ζ π n+ + ξ n+ ]), z + ( v, y + ζ n+ Rr ξ n+ ]), w ] + 4qi T A T ( z w) R + i u, T r A T ( z + w) λ } u d udρ ( z)dρ ( w) { i exp ( v, y + ζ n+ + ξ n+ ]), z + ( v, y + ζ n+ ξ n+ ]), w ] + 4qi T A T ( z w) R } r 4λ T A T ( z + w) R dρ r ( z)dρ ( w), where the last equality follows from (5). Let T q (p) (Φ Φ ) q X n+ ](, ξ n+ ) X n+ ] (y, ζ n+ ) be given by the right hand side of the last equality, where λ is replaced by iq. The existence of T q () (Φ Φ ) q X n+ ](, ξ n+ ) X n+ ](y, ζ n+ ) follows from the dominated convergence theorem. Now let < p and +. Then we have by the dominated convergence theorem p p T λ (Φ Φ ) q X n+ ](, ξ n+ ) X n+ ](y, ζ n+ ) C T q (p) (Φ Φ ) q X n+ ](, ξ n+ ) X n+ ](y, ζ n+ ) p dw ϕ (y) { exp } { r} 4λ T A T ( z + w) R exp r 4qi T A T ( z + w) R d ρ ( z)d ρ ( w) ] p 0 as λ approaches iq through C + Φ ) q X n+ ](, ξ n+ ) X n+ ](y, ζ n+ ). from Theorems 3.4, 4. and 4.3. which shows the existence of T q (p) (Φ Now the equality in the theorem follows

19 Present position-dependent conditional transform and convolution product 405 Remark 4.5 Without using Theorem 3.4, we can prove Theorem 4.4 with aids of Theorems 4. and 4.3. Acknowledgements. The first and third authors were supported by Basic Science Research Program through the National Research Foundation (NRF) of Korea funded by the Ministry of Education (03RAA05899). References ] M. D. Brue, A Functional Transform for Feynman Integrals Similar to the Fourier Transform, Thesis, Univ. of Minnesota, Minneapolis, 97. ] R H. Cameron and D. A. Storvick, Some Banach Algebras of Analytic Feynman Integrable Functionals, Lecture Notes in Mathematics, 798, Springer, Berlin-New York, ] K. S. Chang, D. H. Cho, B. S. Kim, T. S. Song and I. Yoo, Conditional Fourier-Feynman transform and convolution product over Wiener paths in abstract Wiener space, Integral Transforms Spec. Funct., 4 (003), no. 3, ] S. J. Chang and D. Skoug, The effect of drift on conditional Fourier- Feynman transforms and conditional convolution products, Int. J. Appl. Math., (000), no. 4, ] D. H. Cho, Conditional integral transforms and conditional convolution products on a function space, Integral Transforms Spec. Funct., 3 (0), no. 6, ] D. H. Cho, A simple formula for an analogue of conditional Wiener integrals and its applications, Trans. Amer. Math. Soc., 360 (008), no. 7, ] D. H. Cho, Conditional Fourier-Feynman transform and convolution product over Wiener paths in abstract Wiener space: an L p theory, J. Korean Math. Soc., 4 (004), no., ] G. B. Folland, Real Analysis, John Wiley & Sons, New York-Chichester- Brisbane, ] T. Huffman, C. Park and D. Skoug, Analytic Fourier-Feynman transforms and convolution, Trans. Amer. Math. Soc., 347 (995), no.,

20 406 D. H. Cho, S. B. Park and M. Go 0] M. K. Im and K. S. Ryu, An analogue of Wiener measure and its applications, J. Korean Math. Soc., 39 (00), no. 5, ] G. W. Johnson and D. Skoug, The Cameron-Storvick function space integral: an L(L p, L p ) theory, Nagoya Math. J., 60 (976), ] M. J. Kim, Conditional Fourier-Feynman transform and convolution product on a function space, Int. J. Math. Anal., 3 (009), no. 0, ] R. G. Laha and V. K. Rohatgi, Probability Theory, John Wiley & Sons, New York-Chichester-Brisbane, ] K. S. Ryu and M. K. Im, A measure-valued analogue of Wiener measure and the measure-valued Feynman-Kac formula, Trans. Amer. Math. Soc., 354 (00), no., ] K. S. Ryu, M. K. Im and K. S. Choi, Survey of the theories for analogue of Wiener measure space, Interdiscip. Inform. Sci., 5 (009), no. 3, ] E. M. Stein and G. Weiss, Introduction to Fourier Analysis on Euclidean Spaces, Princeton Univ. Press, Princeton, 97. 7] J. Yeh, Stochastic Processes and the Wiener Integral, Marcel Dekker, New York, 973. Received: August 0, 05; Published: October 3, 05

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